JP3654255B2 - Automatic switch slave unit with hot wire sensor, slave unit with extension unit, load extension unit, automatic switch system, and automatic switch master unit with hot wire sensor - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an automatic switch slave with a heat ray sensor, a slave with an extension function, a load extension unit, an automatic switch system, and an automatic switch master with a heat ray sensor.
[0002]
[Prior art]
Conventionally, various automatic switch master units with a hot-wire sensor and slave units connected thereto have been proposed and are commercially available.
[0003]
For example, in Japanese Patent Application Laid-Open No. 7-210774, when a heat ray is detected by a heat ray sensor that detects a heat ray emitted from a human body, a light receiving lens that collects the heat ray from a detection region on the heat ray sensor, and a heat ray sensor. A control unit that outputs a control signal according to the presence or absence of a person, a switch element that is inserted into a power supply path to the controlled device and is set to an on / off state by the control signal, and a power supply line to the controlled device There is disclosed an automatic switch parent device with a heat ray sensor (heat-sensitive automatic switch) in which a terminal portion including a quick connection terminal that connects a power supply line and the power supply path by being connected is housed in a case. As shown in FIG. 36, the automatic switch master unit 1 with a heat ray sensor includes a housing including a body A1 having a flange portion A11 and a cover A8 constituting a terminal portion 130, and the heat ray sensor is provided in the housing. The lens A42, the control unit, the switch element, and the like are accommodated. In FIG. 36, PA 102 is an operation knob (operation holding time adjustment knob), and PA 103a is an operation switch piece (operation ambient illuminance adjustment knob).
[0004]
As shown in FIG. 37, this type of automatic switch parent device with a heat ray sensor may be used with the child device 2 connected thereto. In this case, when the ventilation fan 5 is connected to the automatic switch parent device 1 with a heat ray sensor in addition to the lighting fixture 4, the ventilation fan 5 is connected to the terminal portion to which the lighting fixture 4 is connected.
[0005]
[Problems to be solved by the invention]
However, as shown in FIG. 37, when the lighting fixture 4 and the ventilation fan 5 are connected to one place of the terminal portion of the automatic switch parent device 1 with a heat ray sensor, the lighting fixture 4 and the ventilation fan 5 according to the detection results at a plurality of locations. Can be simultaneously turned on and off simultaneously, but the ventilation fan 5 cannot be turned off with respect to the luminaire 4.
[0006]
In addition, when the brightness sensor of the automatic switch parent device 1 with a heat ray sensor is effective, both the lighting fixture 4 and the ventilation fan 5 do not operate during a bright daytime, so the ventilation fan 5 is operated during that time zone. I can't do that.
[0007]
Here, for the toilet, as shown in FIG. 38, there is an automatic switch 8 with a heat ray sensor with a delay-off specification, and the terminal portion of the automatic switch 8 with a heat ray sensor has a lighting fixture 4, a ventilation fan 5 and Since only the commercial power supply AC can be connected, load control according to detection results at a plurality of locations by a plurality of slave units cannot be performed. Moreover, it can be used only with a fixed delay time.
[0008]
The present invention has been made in view of the above circumstances, and enables the ventilator fan to be turned off, enables only the ventilator to operate in a bright daytime, and responds to detection results at a plurality of locations by a plurality of slave units. An object of the present invention is to provide an automatic switch slave unit with a hot-wire sensor that enables load control.
[0009]
[Means for Solving the Problems]
The invention described in claim 1 for solving the above-mentioned problem is a heat ray sensor part for detecting the presence or absence of a heat ray from a human body, a power supply terminal part for connecting to a commercial power source, and a load terminal for connecting a load. A terminal unit for obtaining a human body presence / absence detection result from the outside, a setting unit for setting the operation holding time to a desired time within a predetermined range of time, and an illuminance sensor unit for detecting illuminance Each time a detection result with a human body is obtained from a switching unit for switching the detection result of the illuminance sensor unit between valid and invalid, and at least one of the slave terminal unit and the heat ray sensor unit, the setting unit sets the detection result. In addition to supplying the power obtained from the power supply terminal unit to the load terminal unit, switching by the switching unit is effective, and the detection result of illuminance by the illuminance sensor unit is predetermined. If it exceeds the degree, it is connected to the child terminal portion in the automatic switch parent device with a hot-wire sensor provided with a control portion that executes control for prohibiting the supply of power obtained from the power terminal portion to the load terminal portion. This is an automatic switch slave unit with a hot-wire sensor for detecting the presence / absence of a hot-wire sensor from a human body, connecting a load to a slave unit-side power terminal unit for connecting to a commercial power source, and a load. Handset-side load terminal, handset-side terminal connected to the handset terminal via an electric wire, and handset setting for setting the operation holding time to a desired time within a predetermined range of time Each time a detection result with a human body is obtained from at least one of the unit and the slave unit side terminal unit and the slave unit side heat ray sensor unit, the operation holding time set by the slave unit setting unit, the slave unit side load The terminal side power Characterized in that it comprises a control unit for executing control for supplying power obtained from the terminal unit.
[0010]
In this configuration, for example, the automatic switch slave unit with a heat ray sensor is connected to the slave terminal portion of the automatic switch master unit with a heat ray sensor, the lighting fixture is connected to the load terminal portion of the automatic switch master unit with a heat ray sensor, and If a ventilator is connected to the handset side load terminal of the automatic switch slave unit with a hot wire sensor, the presence of a human body is detected from at least one of the slave unit side terminal unit and the slave unit side hot wire sensor unit in the automatic switch slave unit with a hot wire sensor. Each time a result is obtained, the electric power obtained from the handset side power supply terminal is supplied to the handset side load terminal, and the ventilation fan is operated for the operation holding time set in the handset side setting section. At this time, in the automatic switch master unit with a heat ray sensor, if the switching by the switching unit is invalid, it is obtained from the power supply terminal unit every time a human body detection result is obtained from at least one of the slave terminal unit and the heat ray sensor unit. The supplied electric power is supplied to the load terminal unit, and the lighting fixture is turned on for the operation holding time set by the setting unit. In this case, if the operation holding time for the ventilation fan is set to be longer than the operation holding time for the lighting apparatus, the ventilation fan can be delayed off with respect to the lighting apparatus. On the other hand, if the switching by the switching unit is effective and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, the supply of power obtained from the power supply terminal unit to the load terminal unit is prohibited. Only the ventilation fan can be operated in a bright time zone. In addition, since the automatic switch slave unit with the heat ray sensor can be connected to the slave unit terminal portion of the automatic switch master unit with the heat ray sensor together with the conventional slave unit, a plurality of slave units including the automatic switch slave unit with the heat ray sensor are provided. It becomes possible to control the load according to the human body detection results at a plurality of locations.
[0011]
According to a second aspect of the present invention, in the automatic switch slave unit with a heat ray sensor according to the first aspect, the power source of the slave unit side hot wire sensor unit is taken from the slave unit side power source terminal unit.
[0012]
According to a third aspect of the present invention, in the automatic switch slave unit with a heat ray sensor according to the first aspect, the power source of the slave unit side hot wire sensor unit is connected to the heat ray sensor via an electric wire connected to the slave unit side terminal unit. It is characterized by being taken from the attached automatic switch master unit.
[0013]
The invention according to claim 4 is a heat ray sensor part for detecting the presence or absence of a heat ray from a human body, a power supply terminal part for connecting to a commercial power supply, a load terminal part for connecting a load, and a human body from the outside. Slave unit for obtaining presence / absence detection result, setting unit for setting operation holding time to a desired time within a predetermined range, illuminance sensor unit for detecting illuminance, and detection of this illuminance sensor unit Each time a detection result with a human body is obtained from a switching unit for switching the result between valid and invalid, and at least one of the slave terminal unit and the heat ray sensor unit, the operation holding time set by the setting unit, the load If the power obtained from the power supply terminal unit is supplied to the terminal unit, the switching by the switching unit is effective, and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, With a hot wire sensor-equipped automatic switch parent device with a control unit that executes control for prohibiting the supply of power obtained from the power terminal portion to the load terminal portion. An automatic switch slave unit, a slave unit side hot wire sensor unit that detects the presence or absence of a thermal wire from a human body, a slave unit side power terminal unit for connecting to a commercial power source, and a slave unit side for connecting a ventilation fan A load terminal unit, a slave unit side terminal unit connected to the slave unit terminal unit via an electric wire, a slave unit side setting unit for setting the operation holding time to a desired time within a predetermined range of time, and Every time a detection result with a human body is obtained from at least one of the handset-side terminal section and the handset-side heat ray sensor section, the operation holding time set in the handset-side setting section, with respect to the handset-side load terminal section The handset side power terminal Characterized in that it comprises a control unit for executing control for supplying et resulting power.
[0014]
The invention according to claim 5 is a heat ray sensor part for detecting the presence or absence of a heat ray from a human body, a power supply terminal part for connecting to a commercial power source, a load terminal part for connecting a load, and a human body from the outside. Slave unit for obtaining presence / absence detection result, setting unit for setting operation holding time to a desired time within a predetermined range, illuminance sensor unit for detecting illuminance, and detection of this illuminance sensor unit Each time a detection result with a human body is obtained from a switching unit for switching the result between valid and invalid, and at least one of the slave terminal unit and the heat ray sensor unit, the operation holding time set by the setting unit, the load If the power obtained from the power supply terminal unit is supplied to the terminal unit, the switching by the switching unit is effective, and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, With a hot wire sensor-equipped automatic switch parent device with a control unit that executes control for prohibiting the supply of power obtained from the power terminal portion to the load terminal portion. An automatic switch slave unit, a slave unit side hot wire sensor unit that detects the presence or absence of a thermal wire from a human body, a slave unit side power terminal unit for connecting to a commercial power source, and a slave unit side for connecting a ventilation fan A load terminal unit, a slave unit side terminal unit connected to the slave unit terminal unit via an electric wire, a slave unit side setting unit for setting the operation holding time to a desired time within a predetermined range of time, and Every time a detection result with a human body is obtained from at least one of the handset-side terminal section and the handset-side heat ray sensor section, the operation holding time set in the handset-side setting section, with respect to the handset-side load terminal section The handset side power terminal A control unit that executes control to supply power obtained from the control unit, and the setting unit of the automatic switch parent unit with a heat ray sensor selects a desired time from a predetermined range of time and sets it as an operation holding time. On the other hand, the slave side setting unit includes a switching means for selecting a desired time from a predetermined range of time and setting it as an operation holding time.
[0015]
The invention according to claim 6 is a heat ray sensor part for detecting the presence or absence of a heat ray from a human body, a power supply terminal part for connecting to a commercial power source, a load terminal part for connecting a load, and a human body from the outside. Slave unit for obtaining presence / absence detection result, setting unit for setting operation holding time to a desired time within a predetermined range, illuminance sensor unit for detecting illuminance, and detection of this illuminance sensor unit Each time a detection result with a human body is obtained from a switching unit for switching the result between valid and invalid, and at least one of the slave terminal unit and the heat ray sensor unit, the operation holding time set by the setting unit, the load If the power obtained from the power supply terminal unit is supplied to the terminal unit, the switching by the switching unit is effective, and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, With a hot wire sensor-equipped automatic switch parent device with a control unit that executes control for prohibiting the supply of power obtained from the power terminal portion to the load terminal portion. An automatic switch slave unit, a slave unit side hot wire sensor unit that detects the presence or absence of a thermal wire from a human body, a slave unit side power terminal unit for connecting to a commercial power source, and a slave unit side for connecting a ventilation fan A load terminal unit, a slave unit side terminal unit connected to the slave unit terminal unit via an electric wire, a slave unit side setting unit for setting the operation holding time to a desired time within a predetermined range of time, and Every time a detection result with a human body is obtained from at least one of the handset-side terminal section and the handset-side heat ray sensor section, the operation holding time set in the handset-side setting section, with respect to the handset-side load terminal section The handset side power terminal A control unit that executes control to supply power obtained from the above and a handset line signal detection unit for signal transmission / reception including a human body presence / absence detection result connected to the handset side terminal section, via an optical device It is characterized in that at least the handset line signal detector is insulated from other parts.
[0016]
The slave unit with an extension function of the invention of claim 7 includes an automatic switch master unit with a heat ray sensor and an automatic switch slave unit with a heat ray sensor, and the automatic switch master unit with a heat ray sensor is heated by a heat ray from a human body. Operation of heat ray sensor unit for detecting presence / absence, power supply terminal unit for connecting to commercial power supply, load terminal unit for connecting load, slave unit terminal unit for obtaining human body presence / absence detection result, operation A setting unit for setting the holding time to a desired time within a predetermined range of time, an illuminance sensor unit for detecting illuminance, a switching unit for switching the detection result of the illuminance sensor unit to valid or invalid, and Every time a detection result with a human body is obtained from at least one of the terminal unit and the heat ray sensor unit, the operation holding time set by the setting unit and the power obtained from the power supply terminal unit for the load terminal unit are obtained. If the switching by the switching unit is effective and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, supply of power obtained from the power supply terminal unit to the load terminal unit is performed. The automatic switch slave unit with a heat ray sensor is connected to the slave unit terminal unit via an electric wire, and the presence or absence of the thermal unit from the human body A child-unit-side heat ray sensor unit that performs detection, and a child-unit signal sending / detecting unit that, when a detection result indicating the presence of a human body is obtained by the child-unit-side heat ray sensor unit, is transmitted from the child unit-side terminal unit. A first terminal part used in the system and connected to the handset terminal part side of the automatic switch parent with the heat ray sensor; a second terminal part connected to the additional automatic switch slave with the heat ray sensor; The first Characterized in that it comprises a control unit for performing signal transmission between the heat ray automatic switch main unit with sensors connected to the child unit.
[0017]
The child device with extension function of the invention according to claim 8 includes an automatic switch parent device with a heat ray sensor and an automatic switch child device with a heat ray sensor, wherein the automatic switch parent device with a heat ray sensor is heated by a heat ray from a human body. Operation of heat ray sensor unit for detecting presence / absence, power supply terminal unit for connecting to commercial power supply, load terminal unit for connecting load, slave unit terminal unit for obtaining human body presence / absence detection result, operation A setting unit for setting the holding time to a desired time within a predetermined range of time, an illuminance sensor unit for detecting illuminance, a switching unit for switching the detection result of the illuminance sensor unit to valid or invalid, and Every time a detection result with a human body is obtained from at least one of the terminal unit and the heat ray sensor unit, the operation holding time set by the setting unit and the power obtained from the power supply terminal unit for the load terminal unit are obtained. If the switching by the switching unit is effective and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, supply of power obtained from the power supply terminal unit to the load terminal unit is performed. The automatic switch slave unit with a heat ray sensor is connected to the slave unit terminal unit via an electric wire, and the presence or absence of the thermal unit from the human body A child-unit-side heat ray sensor unit that performs detection, and a child-unit signal sending / detecting unit that, when a detection result indicating the presence of a human body is obtained by the child-unit-side heat ray sensor unit, is transmitted from the child unit-side terminal unit. An extension side hot wire sensor unit that is used in the system and detects the presence / absence thereof by a heat ray from a human body, a first terminal unit connected to the handset terminal unit side of the automatic switch parent unit with the heat ray sensor, and the additional unit heat A control unit for performing signal transmission including the presence / absence detection result between the second terminal unit to which the automatic switch unit with sensor is connected and the automatic switch unit with heat ray sensor connected to the first terminal unit; It is characterized by providing.
[0018]
The load extension unit of the invention according to claim 9 includes an automatic switch parent device with a heat ray sensor and an automatic switch child device with a heat ray sensor, and the automatic switch parent device with a heat ray sensor detects the presence / absence thereof by a heat ray from a human body. A heat ray sensor unit, a power supply terminal unit for connecting to a commercial power source, a load terminal unit for connecting a load, a slave terminal unit for obtaining a human body presence / absence detection result from outside, and a predetermined operation holding time A setting unit for setting a desired time within a range of time, an illuminance sensor unit for detecting illuminance, a switching unit for switching the detection result of the illuminance sensor unit between valid and invalid, and the slave terminal unit Each time a detection result with a human body is obtained from at least one of the heat ray sensor unit, the operation holding time set by the setting unit, and the power obtained from the power supply terminal unit with respect to the load terminal unit When the switching by the switching unit is effective and the detection result of illuminance by the illuminance sensor unit exceeds a predetermined illuminance, the supply of power obtained from the power terminal unit to the load terminal unit is prohibited. The automatic switch slave unit with a hot-wire sensor is detected by detecting the presence or absence of a slave unit side terminal unit connected to the slave unit terminal unit via an electric wire and a heat ray from a human body. And a slave unit signal transmission / detection unit that sends out a detection result with a human body when the slave unit side heat ray sensor unit obtains a detection result with a human body. Connected to the load extension side power terminal for connecting to the commercial power source, the load extension side load terminal for connecting the load, and the load terminal side of the automatic switch master unit with the heat ray sensor A control input terminal section, an open / close section that opens and closes a connection between the load expansion side power supply terminal section and the load expansion side load terminal section, and the control input terminal section directly below the automatic switch parent unit with the heat ray sensor A control input detection unit that detects a load control state for the load of the load, and a load addition side control unit that performs open / close control of the open / close unit according to the load control state detected by the control input detection unit, To do.
[0019]
The invention according to claim 10 is the load extension unit according to claim 9, wherein the control input detection unit detects the load control state from a voltage of a commercial power source obtained from the control input terminal unit. .
[0020]
The invention according to claim 11 is the load extension unit according to claim 9 or 10, wherein the load extension side power supply terminal section, the load extension side load terminal section, the control input terminal section, the switching section and the load extension side control section are stored. And a housing attached to the ceiling, wherein the opening / closing part is constituted by a relay.
[0021]
The invention according to claim 12 includes an automatic switch master unit with a heat ray sensor, an automatic switch slave unit with a first heat ray sensor, an automatic switch slave unit with a second heat ray sensor, a slave unit with a slave unit extension function, and a load extension unit. In the switch system, the automatic switch master unit with a heat ray sensor includes a heat ray sensor unit for detecting presence / absence by a heat ray from a human body, a power supply terminal unit for connection to a commercial power source, and a load for connecting a load. Terminal unit, external terminal unit for obtaining the presence / absence detection result of the human body from the outside, a setting unit for setting the operation holding time to a desired time within a predetermined range of time, and an illuminance sensor unit for detecting illuminance And each time a detection result with a human body is obtained from at least one of the switching unit for switching the detection result of the illuminance sensor unit to valid or invalid, and the slave terminal unit and the heat ray sensor unit, The operation holding time set by the setting unit and the power obtained from the power supply terminal unit are supplied to the load terminal unit, and the switching by the switching unit is effective, and the illuminance sensor unit detects illuminance. If the result exceeds a predetermined illuminance, a control unit that executes control for prohibiting the supply of power obtained from the power terminal unit to the load terminal unit, the automatic switch slave with the first hot-wire sensor, A child terminal side connected to the child terminal via an electric wire, a child device hot wire sensor for detecting presence / absence by a heat ray from the human body, and detection of presence of a human body in the child device hot wire sensor When the result is obtained, it is provided with a slave unit signal sending / detecting unit for sending it from the slave unit side terminal unit, and the automatic switch slave unit with the second hot-wire sensor detects its presence or absence by a heat ray from the human body. Slave unit side To set the line sensor unit, the handset side power terminal for connecting to the commercial power source, the handset side load terminal for connecting the ventilation fan, and the operation holding time to a desired time within a predetermined range of time. Detection result of presence of a human body from at least one of the slave unit side terminal unit and the slave unit side heat ray sensor unit, the slave unit side terminal unit connected to the slave unit terminal unit via an electric wire, and the slave unit side terminal unit Control for performing the operation holding time set by the slave unit side setting unit and supplying the power obtained from the slave unit side power supply terminal unit to the slave unit side load terminal unit The extension unit with the extension unit is connected to the extension side hot wire sensor unit for detecting presence / absence by a heat ray from a human body, and the extension unit terminal side of the automatic switch parent unit with the heat ray sensor. 1st terminal part and the automatic switch element with the said heat ray sensor added A control unit that performs signal transmission including the presence / absence detection result of the human body between the second terminal unit to which the device is connected and the automatic switch master unit with the heat ray sensor connected to the first terminal unit, The load extension unit is connected to the load extension side power terminal for connecting to the commercial power supply, the load extension side load terminal for connecting the load, and the load terminal side of the automatic switch parent unit with the heat ray sensor. A control input terminal unit, an open / close unit that opens and closes a connection between the load extension side power supply terminal unit and the load extension side load terminal unit, and the control input terminal unit from the automatic switch parent unit with the heat ray sensor A control input detection unit that detects a load control state for a load immediately below, and a load addition side control unit that performs open / close control of the open / close unit according to the load control state detected by the control input detection unit And
[0022]
A thirteenth aspect of the present invention is the automatic switch system according to the twelfth aspect of the present invention, wherein the automatic switch parent device with a heat ray sensor, an automatic switch child device with a first heat ray sensor, an automatic switch child device with a second heat ray sensor, and an additional child device. Each of the functional slave unit and the load extension unit includes a housing attached to the ceiling.
[0023]
The automatic switch parent device with a heat ray sensor according to the fourteenth aspect of the present invention is the presence / absence detection of a human body sent out from the automatic switch child device with a heat ray sensor provided with a child-device-side heat ray sensor portion for detecting the presence / absence of the heat ray from the human body. The terminal unit for obtaining the result, the heat ray sensor part for detecting the presence / absence by the heat ray from the human body, the power terminal part for connecting to the commercial power source, the load terminal part for connecting the load, and the operation A setting unit for setting the holding time to a desired time within a predetermined range of time, an illuminance sensor unit for detecting illuminance, a switching unit for switching the detection result of the illuminance sensor unit to valid or invalid, and Every time a detection result with a human body is obtained from at least one of the terminal unit and the heat ray sensor unit, the operation holding time set by the setting unit is obtained from the power terminal unit with respect to the load terminal unit. When power is supplied and switching by the switching unit is effective and the detection result of illuminance by the illuminance sensor unit exceeds a predetermined illuminance, supply of power obtained from the power supply terminal unit to the load terminal unit And a control unit that executes control for prohibiting the control unit, and the control unit further executes control for sending out the result of detection of the presence or absence of a human body by the heat ray sensor unit from the slave terminal unit.
[0024]
According to a fifteenth aspect of the present invention, in the automatic switch parent device with a heat ray sensor according to the fourteenth aspect, the control unit displays the human body presence / absence detection result by the heat ray sensor unit regardless of the detection result of the illuminance sensor unit. Control is performed to send out from the slave terminal unit.
[0025]
The automatic switch parent device with a heat ray sensor according to the sixteenth aspect of the present invention is the presence / absence detection of a human body sent out from the automatic switch child device with a heat ray sensor provided with a child-device-side heat ray sensor portion for detecting the presence / absence of the heat ray from the human body. The child terminal part for obtaining the result, the heat ray sensor part for detecting the presence / absence by the heat ray from the human body, the power terminal part for connecting to the commercial power source, the load terminal part for connecting the load, An open / close unit that opens and closes a connection between the load terminal unit and the power supply terminal unit, a setting unit that sets the operation holding time to a desired time within a predetermined range of time, and an illuminance sensor unit that detects illuminance Each time a detection result with a human body is obtained from a switching unit for switching the detection result of the illuminance sensor unit between valid and invalid, and at least one of the slave terminal unit and the heat ray sensor unit, the setting unit sets the detection result. Power supply obtained from the power supply terminal unit is supplied to the load terminal unit by operation holding time and closing control on the opening / closing unit, and switching by the switching unit is effective, and detection of illuminance by the illuminance sensor unit A control unit that executes control for prohibiting supply of power obtained from the power supply terminal unit to the load terminal unit by opening control to the switching unit if the result exceeds a predetermined illuminance, and the switching unit and control It is characterized by combining the parts to form a hybrid configuration.
[0026]
The invention described in claim 17 is a child device terminal for obtaining the presence / absence detection result of a human body sent from an automatic switch child device with a heat ray sensor provided with a child device side heat ray sensor unit for detecting the presence / absence of a heat ray from a human body. Part, a heat ray sensor part for detecting the presence or absence by a heat ray from a human body, a power supply terminal part for connecting to a commercial power supply, a load terminal part for connecting a load, the load terminal part and the power supply terminal part An opening / closing unit that opens and closes a connection between the illuminating unit, a setting unit for setting an operation holding time to a desired time within a predetermined range, an illuminance sensor unit that detects illuminance, and a detection result of the illuminance sensor unit Each time a detection result with a human body is obtained from at least one of the slave terminal unit and the heat ray sensor unit, the operation holding time set by the setting unit, the switching unit Vs. Power supply obtained from the power supply terminal unit to the load terminal unit by close control, and switching by the switching unit is effective, and the detection result of illuminance by the illuminance sensor unit exceeds a predetermined illuminance. An automatic switch parent unit with a heat ray sensor comprising: a control unit that executes control for prohibiting supply of power obtained from the power supply terminal unit to the load terminal unit by opening control with respect to the opening and closing unit, Brightness setting means is provided for setting the operating ambient illuminance of the illuminance sensor unit to a desired illuminance selected from a preset range.
[0027]
The automatic switch parent device with a heat ray sensor according to the invention of claim 18 detects the presence or absence of a human body sent from the automatic switch child device with a heat ray sensor provided with a child-device-side heat ray sensor portion for detecting the presence or absence of the heat ray from the human body. The child terminal part for obtaining the result, the heat ray sensor part for detecting the presence / absence by the heat ray from the human body, the power terminal part for connecting to the commercial power source, the load terminal part for connecting the load, An open / close unit that opens and closes a connection between the load terminal unit and the power supply terminal unit, a setting unit that sets the operation holding time to a desired time within a predetermined range of time, and an illuminance sensor unit that detects illuminance Each time a detection result with a human body is obtained from a switching unit for switching the detection result of the illuminance sensor unit between valid and invalid, and at least one of the slave terminal unit and the heat ray sensor unit, the setting unit sets the detection result. Power supply obtained from the power supply terminal unit is supplied to the load terminal unit by operation holding time and closing control on the opening / closing unit, and switching by the switching unit is effective, and detection of illuminance by the illuminance sensor unit If the result exceeds a predetermined illuminance, a control unit that executes control for prohibiting the supply of power obtained from the power supply terminal unit to the load terminal unit by opening control to the opening and closing unit, the setting unit, A selector switch for selecting a desired time from a predetermined range of time and setting it as an operation holding time is provided.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
FIG. 1 is a diagram showing a configuration example of an automatic switch system including an automatic switch master unit with a heat ray sensor and an automatic switch slave unit with a heat ray sensor, and FIG. 2 is a diagram showing a specific connection example of each device in the system of FIG. The first embodiment of the present invention will be described with reference to these drawings.
[0029]
As shown in FIG. 2, the automatic switch system according to the first embodiment is connected to a master unit 1 (automatic switch master unit with a heat ray sensor), and a slave unit 2 and a ventilating fan unit 3 (main unit) are connected to each other by wires L1 and L2. The automatic switch slave with a heat ray sensor according to the first embodiment of the invention), the master unit 1 and the ventilation fan unit 3 are connected to the commercial power supply AC via the electric wires L3 and L4, respectively, and the electric wires L5 and L6 The lighting fixture 4 and the ventilation fan 5 are connected to the master unit 1 and the ventilation fan unit 3 through the, respectively.
[0030]
The parent device 1 is the same as the conventional one, and includes a body 12 having a flange 12a, a power terminal portion 131 for connecting to the commercial power source AC, a load terminal portion 132 for connecting the lighting fixture 4 as a load, and A case 11 is provided that includes a cover 13 that forms a handset terminal unit 133 for obtaining a human body presence / absence detection result from the outside, and the light receiving lens and the electric circuit unit 10 are accommodated in the case 11. The parent device 1 can be connected to a total of six child devices including the ventilation fan 3, and can be connected to only two child devices (AC100V, rated 3A). Compared with the high capacity parent device (AC100 / 200V, rating 8A).
[0031]
The power supply terminal portion 131 has a pair of wire insertion ports 131a for inserting a pair of conductor wires of the electric wire L3, and a fast connection terminal that locks the conductor wires inserted into the wire insertion ports 131a. Provided inside. Similarly, the load terminal portion 132 has a pair of wire insertion openings 132a for inserting a pair of conductor wires of the electric wire L5, respectively, and is locked to the conductor wires inserted into these electric wire insertion openings 132a. Quick connection terminals are provided inside. Moreover, the subunit | mobile_unit terminal part 133 has a pair of electric wire insertion port 133a for inserting each of a pair of conductor wire of the electric wire L1, and is a speed locked to the conductor wire inserted in each of these electric wire insertion ports 133a. A connection terminal is provided inside.
[0032]
As shown in FIG. 1, the electric circuit unit 10 includes a child signal transmission / detection circuit unit 100 for receiving a detection result, and a sensor circuit unit 101 that detects the presence / absence by a heat ray from a human body, An operation holding time setting volume 102 for setting the operation holding time to a desired time within a predetermined range of time (for example, about 10 seconds to 6 minutes) and a brightness sensor unit 103 for detecting ambient illuminance (brightness) And an open / close unit 104, a constant voltage circuit unit 105, a changeover switch 106, and a control circuit unit 107.
[0033]
The open / close unit 104 is a switch with an open / close control terminal interposed between the power terminal unit 131 and the load terminal unit 132, and the constant voltage circuit unit 105 is an AC power (voltage is 100V) from the power terminal unit 131. Or 200V) is rectified and smoothed, and the obtained constant voltage DC power is supplied to the control circuit unit 107 and the like.
[0034]
The change-over switch 106 is for performing various types of switching, and is set to “automatic” for enabling the presence / absence detection result of the human body obtained from the slave terminal unit 133 and the sensor circuit unit 101, or to “off” or A switch for switching to “continuous on”, and a switch for switching to “dark” or high “bright” with a predetermined illuminance low and “off” to invalidate the detection result of the brightness sensor unit 103 Is provided. Among these switches, the “dark”, “bright”, and “off” switches are integrally provided in the parent unit regardless of whether the parent unit is for ceiling or wall embedding. However, in the case of the ceiling, it is provided as a switch for “dark”, “bright”, and “inspection”. On the other hand, the “automatic”, “off” and “continuous on” switches are provided as a wall embedding operation unit separate from the parent unit if the parent unit is for ceiling use. If so, it is provided integrally with the parent device.
[0035]
Here, when the former switch is switched to “OFF”, the luminaire 4 connected to the load terminal portion 132 maintains a light-off state, and when it is switched to “continuous ON”, the light-on state is maintained. On the other hand, when the latter switch is used to switch the predetermined illuminance to, for example, the higher “bright”, the load operates earlier in the evening.
[0036]
The control circuit unit 107 is configured by a microcomputer, and in accordance with the switching setting of the changeover switch 106, the detection result obtained from the slave unit terminal unit 133 via the slave unit signal transmission / detection circuit unit 100, the sensor circuit unit 101, and the brightness The power supply control for the load connected to the load terminal unit 132 is performed using each detection result of the sensor unit 103.
[0037]
For example, when the control circuit unit 107 is set to “automatic” with the changeover switch 106, the operation holding time is obtained every time a detection result with a human body is obtained from at least one of the slave terminal unit 133 and the sensor circuit unit 101. The operation holding time set by the setting volume 102 and the opening / closing part 104 are closed, and the power supply terminal part 131 is connected to the load terminal part 132 (the luminaire 4 is connected in the example of FIG. 2). Supply power obtained from At this time, if the switching by the changeover switch 106 is “dark” or “bright” and the detection result of the illuminance by the brightness sensor unit 103 exceeds the predetermined illuminance determined by the switching, the load terminal unit 132 is Control for prohibiting the supply of power obtained from the power terminal 131 is executed. That is, if the surrounding illuminance is brighter than the predetermined illuminance, the luminaire 4 connected to the load terminal portion 132 is held in the extinguished state regardless of the detection result of the presence or absence of a human body.
[0038]
The subunit 2 shown in FIG. 2 is the same as the conventional one, and is constituted by a body 22 having a flange 22a and a cover 23 having a pair of terminal portions 231 for sending a detection result by a feed wiring type. 21, and the light receiving lens and the electric circuit unit 20 are accommodated in the case 21.
[0039]
Each terminal portion 231 has a pair of wire insertion ports 231a for inserting a pair of conductor wires of the electric wires (L1, L2), respectively, and is locked to the conductor wires inserted into the respective wire insertion ports 231a. It has a quick connection terminal inside.
[0040]
As shown in FIG. 1, the electric circuit unit 20 includes a slave unit signal transmission / detection circuit unit 200 for transmitting the detection result, and a sensor circuit unit 201 that detects, for example, the presence or absence of heat using a heat ray sensor. And. The detection result detected by the sensor circuit unit 201 is transmitted to the outside from each terminal unit 231 via the slave unit signal transmission / detection circuit unit 200.
[0041]
Returning to FIG. 2, the new ventilation fan 3 which is a feature of the present embodiment is for connecting the body 32 having the flange 32a, the power supply terminal portion 331 for connection to the commercial power supply AC, and the ventilation fan 5 as a load. Are connected to the load terminal portion 332 and the handset terminal portion 133 via electric wires (L1 and L2 in the example of FIG. 2) and output from the sensor circuit portion 301 via the handset line signal detection circuit portion 300 described later. The case 31 is formed of a cover 33 that constitutes a terminal portion 333 connected to the light receiving lens. The light receiving lens and the electric circuit portion 30 are accommodated in the case 31.
[0042]
The power supply terminal portion 331 has a pair of wire insertion ports 331a for respectively inserting a pair of conductor wires of the electric wire L4, and a quick connection terminal that locks the conductor wires inserted into these wire insertion ports 331a. Provided inside. Similarly, the load terminal portion 332 has a pair of wire insertion ports 332a for inserting the pair of conductor wires of the electric wire L6, and is locked to the conductor wires inserted into the respective wire insertion ports 332a. Quick connection terminals are provided inside. Moreover, the terminal part 333 has a pair of electric wire insertion port 333a for respectively inserting a pair of conductor wire of the electric wire L2, and is a quick connection terminal locked to the conductor wire inserted in each of these electric wire insertion ports 333a. Is provided inside.
[0043]
As shown in FIG. 1, the electric circuit unit 30 includes a slave line signal detection circuit unit 300 for signal transmission / reception including a detection result and a heat ray sensor, and a sensor circuit unit 301 that detects the presence / absence by a heat ray from a human body. And an operation holding time setting volume 302 for setting an operation holding time (for example, about 10 seconds to 30 minutes) to a desired time within a predetermined range of time, an open / close unit 304, a constant voltage circuit unit 305, The changeover switch 306 and the control circuit unit 307 are provided.
[0044]
The open / close unit 304 is a switch with an open / close control terminal interposed between the power terminal unit 331 and the load terminal unit 332, and the constant voltage circuit unit 305 is an AC power (voltage is 100 V) from the power terminal unit 331. Or 200V) is rectified and smoothed, and the obtained constant voltage DC power is supplied to the control circuit unit 307 and the like.
[0045]
The change-over switch 306 is a switch for switching to “automatic” for validating the presence / absence detection result of the human body obtained from the terminal portion 333 and the sensor circuit portion 301, or for switching to “off” or “continuous on” with invalidity. Same as 1.
[0046]
The control circuit unit 307 is configured by a microcomputer, and in accordance with the switching setting of the changeover switch 306, the presence / absence detection result of the human body obtained from the terminal unit 333 via the slave unit line signal detection circuit unit 300, and the detection of the sensor circuit unit 301 The power supply control for the load connected to the load terminal unit 332 is performed using the result.
[0047]
For example, when the changeover switch 306 is set to “automatic”, the control circuit unit 307 sets the operation holding time setting volume every time a detection result with a human body is obtained from at least one of the terminal unit 333 and the sensor circuit unit 301. The power obtained from the power supply terminal unit 331 for the load terminal unit 332 (the ventilator fan 5 is connected in the example of FIG. 2) with the opening / closing unit 304 closed in the operation holding time set in 302. Supply.
[0048]
In the automatic switch system configured as described above, in the ventilation fan 3, the power obtained from the power supply terminal unit 331 is loaded each time a detection result with a human body is obtained from at least one of the terminal unit 333 and the sensor circuit unit 301. The ventilation fan 5 is operated for the operation holding time set in the operation holding time setting volume 302 by being supplied to the terminal unit 332.
[0049]
At this time, in the parent device 1, when switching by the “dark”, “bright”, and “off” switches of the changeover switch 106 is “off” that is invalid, at least one of the child device terminal unit 133 and the sensor circuit unit 101. Each time a detection result with a human body is obtained, the power obtained from the power terminal 131 is supplied to the load terminal 132, and the lighting fixture 4 operates for the operation holding time set by the operation holding time setting volume 102. Will light up. In this case, if the operation holding time for the ventilation fan 5 is set to be longer than the operation holding time for the lighting fixture 4, the ventilation fan 5 can be delayed off with respect to the lighting fixture 4.
[0050]
On the other hand, when the switch 106 is “dark” or “bright” in which the switching by the “dark”, “bright”, and “off” switches is effective, the predetermined illuminance corresponding to the detection result of the illuminance by the brightness sensor unit 103 If it is less than the above, the above operation is allowed. That is, if the surrounding illuminance is darker than the predetermined illuminance, the lighting apparatus 4 is turned on for the corresponding operation holding time each time a detection result with a human body is obtained. On the other hand, if the detection result of the illuminance by the brightness sensor unit 103 exceeds the corresponding predetermined illuminance, the supply of electric power obtained from the power supply terminal unit 131 to the load terminal unit 132 is prohibited. Will remain off without turning on. Thereby, it becomes possible to operate only the ventilation fan 5 without turning on the luminaire 4 in the daytime, for example, when the ambient illuminance is brighter than the predetermined illuminance.
[0051]
Moreover, since this ventilation fan 3 can be connected to the child terminal portion 133 of the parent device 1 together with the conventional child device 2, the human body detection results at a plurality of locations by the plurality of child devices including the ventilation fan 3 can be obtained. The corresponding load control becomes possible.
[0052]
By the way, in the example of FIG. 1, the power supply of the slave unit line signal detection circuit unit 300 and the sensor circuit unit 301 in the ventilation fan 3 is taken from the master unit 1 via the electric wires L1 and L2 connected to the terminal unit 333. Therefore, the sensor circuit unit 301 can be driven by a power source different from the control circuit unit 307 of the ventilation fan 3, and a circuit configuration in which both are insulated can be achieved. For example, the master unit 1 can be connected to 200V, and the ventilation fan 3 can be connected to 100V.
[0053]
However, the present invention is not limited to this, and the power supply of the handset line signal detection circuit unit 300 and the sensor circuit unit 301 in the ventilation fan 3 may be configured to be taken from the power supply terminal unit 331. In the case of this configuration, both the sensor circuit unit 301 and the control unit 307 can be driven by a power source different from the parent unit 1, so the ventilation fan unit 3 is connected to the commercial power source AC and connected to the load terminal unit 332. Even if only the ventilation fan 5 is connected, the ventilation fan 3 can operate independently.
[0054]
Further, in the first embodiment, the master unit 1 is configured to capture the detection result from the outside through the slave unit terminal unit 133, but outputs the detection result of the sensor circuit unit 101 to the outside through the slave unit terminal unit 133. It may be configured. In the case of this configuration, the ventilation fan 3 can fetch the detection result from the parent device 1 through the terminal portion 333.
[0055]
(Second Embodiment)
3 is an exploded perspective view showing a specific structure of the ventilation fan, FIG. 4 is a plan view of the ventilation fan as viewed from each direction, FIG. 5 is a circuit diagram of the ventilation fan, and FIG. 6 is a diagram of the ventilation fan. It is explanatory drawing of a human body detection area, 2nd Embodiment of this invention is described referring these figures.
[0056]
As shown in FIGS. 3 and 4, the ventilation fan according to the second embodiment is a disk-shaped device having a pair of holding grooves A <b> 11 b on both sides of the window hole A <b> 11 a so as to be attachable to the ceiling. In addition to a body A1 including a flange portion A11 and a cylindrical portion A12 that is integrally formed at the center of the upper surface and has four engaging protrusions A12a that are integrally formed on the upper edge. A pair of scissors A2, a plate A3, a rotary heat ray sensor storage A4, a support member A5, a control system printed circuit board A6, a power system printed circuit board A7, a cover A8, and a terminal cover A9 It has.
[0057]
The scissor bracket A2 is formed in a vertically long box shape that opens in one side, and has a pair of engaging projections A21a that engages with a pair of holding grooves A11b at the lower end, and a support A21 on the upper and bottom walls. The upper and lower ends are respectively inserted into a tightening screw A22 that is rotatably held by the column A21, and a pinching piece A23 that is screwed to the tightening screw A22. This pinch piece A23 is moved from the notch A21b by rotating the tightening screw A22, and descends along the opening surface of the support column A21. Accordingly, the pair of engaging projections A21a of each scissor fitting A2 are respectively engaged with the pair of holding grooves A11b of the flange portion A11, and each scissor fitting A2 is detachably attached to the body A1, and each scissor fitting A2 is attached. And the cylindrical portion A12 are inserted into the mounting holes formed in the ceiling board (not shown), and then the sandwiching piece A23 is lowered, the top and bottom surfaces of the ceiling board in the vicinity of the peripheral portion of the mounting hole respectively The lower surface of the distal end portion and the upper surface of the flange portion A11 are in contact with or pressed against each other, whereby the body A1 is attached to the ceiling.
[0058]
The plate A3 has a round hole A3a corresponding to the window hole A11a at the center, is held in engagement with the flange A11, and functions as a decorative cover.
[0059]
The heat ray sensor storage part A4 includes a hemispherical rotating frame A41 having a shaft part A41a protruding at both ends, and a lens (for example, a Fresnel lens) that is coupled to the front side (lower side in FIG. 3) to become a window part. Multi-focal lens) A42 and a sensor (for example, a heat ray sensor made of an infrared detecting element such as a pyroelectric element, pyroelectric element 301a in the specific circuit example of FIG. 5) are mounted on the front side, and a rotating frame A41 and a lens A42 are mounted. The detection system printed circuit board A43 accommodated in the inside and the ring-shaped holding frame A44 attached to the coupling portion of the rotary frame A41 and the lens A42.
[0060]
The support member A5 includes a presser fitting A51, a support bar A53 attached to the support metal A51 via a spring A52, and two screws A54, and is used to rotatably fix the heat ray sensor storage portion A4 to the body A1. belongs to. That is, each shaft portion A41a of the rotary frame A41 is inserted into a guide groove A11c extending upward from the lower end side formed in the peripheral portion of the window hole A11a, and thereafter, using two screws A54, the spring A52 is interposed. If the presser fitting A51 to which the support bar A53 is attached is screwed to the body A1, the upper part of the heat ray sensor storage part A4 is elastically pressed by the support bar A53, and the heat ray sensor storage part A4 rotates to the body A1. It will be fixed freely.
[0061]
The control system printed circuit board A6 is electrically connected to the detection system printed circuit board A43 via the lead wire AL1, and is also electrically connected to the power system printed circuit board A7.
[0062]
The power system printed circuit board A7 includes a board A71, three pairs of U-shaped terminal boards A72 mounted thereon, three pairs of lock springs A73 respectively held in the three pairs of terminal boards A72, The button A74 is interposed between the pair of lock springs A73.
[0063]
The cover A8 is formed in a box shape capable of closing the opening of the cylindrical portion A12, and an engagement protrusion A8a that fits into the engagement hole of each engagement protrusion A12a is formed on the side wall portion. On the other hand, an electric wire insertion hole A8b communicating with each pair of lock springs A73 and the terminal plate A72 is formed on one side of the upper surface, and a jig communicating with the button A74 is located between each pair of electric wire insertion holes A8b. An insertion hole A8c is formed. Accordingly, the control projection printed circuit board A6 and the power supply system printed circuit board A7 are positioned on the heat ray sensor storage portion A4 fixed to the body A1 so as to be freely rotatable, and the respective engagement projections A8a are connected to the corresponding engagement projections. When fitted into the engagement hole of the piece A12a, the opening of the cylindrical portion A12 is closed by the cover A8, and the control system printed circuit board A6 and the power system printed circuit board A7 are accommodated in the body A1 and the cover A8. . Moreover, if the conductor wire of an electric wire is inserted in electric wire insertion hole A8b, the conductor wire will be elastically pinched between terminal plate A72 of a communicating place, and lock spring A73 which elastically contacts this. Furthermore, if the tip of a flathead screwdriver is inserted into the jig insertion hole A8c, the button A74 at the communication destination is pressed and the lock spring A73 is pressed, thereby pulling out the electric wire with which the conductor wire is elastically held. become. A terminal cover A9 is detachably attached to the cover A8 so as to cover each wire insertion hole A8b.
[0064]
Here, the ventilation fan of the second embodiment has the block configuration of FIG. 1 as described in the first embodiment, but more specifically, is configured by a circuit as shown in FIG. Various processes such as energization control to the load terminal unit 332 to which the ventilating fan 5 is connected are executed by the control circuit unit (microcomputer) 307 in the figure via the contact of the relay RL. These electric circuit units 30 (see FIG. 1) are mounted on the detection system printed circuit board A43, the control system printed circuit board A6, and the power system printed circuit board A7, and are equipped with a 100 W (for 100 V) and 200 W (for 200 V) ventilation fans. The load capacity that can be connected is set.
[0065]
Further, the human body detection area when the axis of the sensor of the rotatable heat ray sensor storage unit A4 faces directly below is set to an area as shown in FIG. That is, as shown in the range within AR1 in FIG. 6A, when the entire detection area of the heat ray sensor is valid, φ2.8m immediately below 2m, φ3.5m immediately below 2.5m, and 4.9m. A human body within a range of φ3.5 m immediately below and φ3.3 m immediately below 5 m can be detected. On the other hand, if a lens hood that covers the front outer peripheral portion of the heat ray sensor storage portion A4 is attached, as shown in the area AR2 in FIG. Since the detection area becomes effective, the human body detection area is in a range of φ1.3 m immediately below 2 m and φ3.3 m immediately below 5 m.
[0066]
As mentioned above, according to 2nd Embodiment, the sensor circuit part 301 which detects the presence or absence with the heat ray from a human body, the power supply terminal part 331 for connecting with a commercial power source, and the load terminal part 332 for connecting the ventilation fan 5 are included. A terminal unit 333 connected to the slave terminal unit 133 via an electric wire, an operation holding time setting volume 302 for setting the operation holding time to a desired time within a predetermined range, a terminal unit 333 and a sensor Every time a detection result with a human body is obtained from at least one of the circuit units 301, the operation holding time set by the operation holding time setting volume 302 is supplied to the load terminal unit 332 from the power terminal unit 331. Since the control circuit unit 307 that performs the control to be performed is provided, the ventilation fan 5 can be delayed OFF in a wide space.
[0067]
The operation holding time setting volume 302 is not limited to a continuously variable volume, and may be an operation holding time setting switch configured by a selector switch for multistage switching.
[0068]
(Third embodiment)
FIG. 7 is a diagram showing a configuration example of an automatic switch system including an automatic switch parent with a heat ray sensor and an automatic switch child with a heat ray sensor, and a third embodiment of the present invention will be described with reference to this figure. However, FIG.7 (b) is an enlarged view of (alpha) part in Fig.7 (a), FIG.7 (c) is an enlarged view of (beta) part in Fig.7 (a).
[0069]
As shown in FIG. 7B, the master unit 1 of the third embodiment is different from the first embodiment in that a multi-stage is provided instead of the operation holding time setting volume 102 constituted by a continuously variable volume. An operation holding time setting switch 102A configured by a multi-contact switch for switching is provided. As a specific numerical example, in the first embodiment, it is about 10 seconds to 6 minutes, but in the third embodiment, as shown in FIG. 7B, within the time of 9 points from 10 seconds to 30 minutes. The operation holding time can be set. Also, the ambient illuminance (detection sensitivity) of the sensor unit 103 can be changed by the brightness setting knob 103a.
[0070]
On the other hand, in the ventilation fan 3 of the third embodiment, as shown in FIG. 7C, a multi-contact switch for multi-stage switching is used instead of the operation holding time setting volume 302 constituted by a continuously variable volume. A configured operation holding time setting switch 302A is provided (see FIG. 4A). As a specific numerical example, the operation holding time can be set within a time of 9 points from 10 seconds to 30 minutes. In FIG. 7C, since the operation holding time is set to 20 minutes, in this case, if the detection result with the human body in the detection area is not obtained for 20 minutes, the power supply to the ventilation fan 5 is stopped. If the operation of the ventilation fan 5 is stopped and a detection result with a human body in the detection area is obtained within 20 minutes, the operation holding time is reset at the time of detection, and the operation time of the ventilation fan 5 is extended. become.
[0071]
As described above, the parent unit 1 is provided with the operation holding time setting switch 102A for selecting a desired time from the predetermined range of time and setting it as the operation holding time, while the ventilation fan 3 is provided with the predetermined range of time. By providing the operation holding time setting switch 302A for selecting a desired time from the time and setting it as the operation holding time, the delay time between the lighting device 4 and the ventilation fan 5 can be freely adjusted.
[0072]
(Fourth embodiment)
FIG. 8 is a block diagram of a ventilation fan, and a fourth embodiment of the present invention will be described with reference to this figure.
[0073]
As shown in FIG. 8, the ventilating fan of the fourth embodiment is different from the first embodiment in that the operation holding time constituted by a multi-contact changeover switch or the like is used instead of the operation holding time setting volume 302. In addition to the setting switch 302A, the sensor circuit unit 301 is directly connected to the control circuit unit 307 (see 301 and 307 in FIG. 5), and a photocoupler (between the control circuit unit 307 and the slave unit line signal detection unit 300). The electric circuit unit 30A is connected via the PTR1 and PTR2 in FIG. 5 and is insulated between the slave line signal detection unit 300 and the control circuit unit 307.
[0074]
As described above, even if the child device line signal detection unit 300 is insulated from other circuits, the child device line signal detection unit 300 can be operated by DC power supplied to the terminal unit 333 from the outside. Then, by isolating the slave unit line signal detection unit 300 from other circuits, in the system configuration shown in FIG. 7, the voltage of the commercial power source AC applied to the master unit 1 and the commercial power source applied to the ventilation fan 3 It is not always necessary to match the AC voltage, and product wiring can be performed by mixing different voltages between the lighting device 4 of the parent unit 1 and the ventilation fan 5 of the ventilation fan 3. That is, the 100 V lighting device 4 and the 200 V ventilation fan 5, or the 200 V lighting device 4 can be connected in addition to the connection of the 100 V lighting device 4 and the 100 V ventilation fan 5, or the 200 V lighting device 4 and the 200 V ventilation fan 5. And 100V ventilation fan 5 can be connected.
[0075]
As mentioned above, according to 4th Embodiment, by isolating at least the subunit | mobile_unit line signal detection part 300 side from other parts among each part of the electric circuit part 30A of a ventilation fan, with the lighting fixture 4 of the parent | base_unit 1 Product wiring by mixing different voltages of the ventilation fan 5 of the ventilation fan 3 is possible.
[0076]
In addition, since the electric circuit unit 30A other than the slave line signal detection unit 300 can operate even when there is no connection to the terminal unit 333, the human body detection operation of the ventilation fan 5 can be performed only by connecting the commercial power supply AC and the ventilation fan 5. It becomes possible. In other words, the single item can be used.
[0077]
In FIG. 8, every time a detection result indicating the presence of a human body is obtained from the sensor circuit unit 301, the control circuit unit 307 is connected to the load terminal unit 332 through the set operation holding time and opening / closing unit 304. A configuration may be employed in which power obtained from 331 is supplied and a signal including a detection result of the presence of the human body is transmitted from the terminal portion 333. However, in the case of this configuration, the slave unit line signal detection circuit unit 300 in FIG. 8 needs to have the same circuit configuration as the slave unit signal transmission / detection circuit unit 200 in FIG.
[0078]
(Fifth embodiment)
FIG. 9 is a block configuration diagram of a slave unit with a slave unit extension function, and FIG. 10 is a configuration example of an automatic switch system including a slave unit with a slave unit extension function, an automatic switch master unit with a heat ray sensor, and an automatic switch slave unit with a heat ray sensor FIG. 11 is an exploded perspective view of the child unit with the expansion unit extension function, FIG. 12 is a plan view of the expansion unit with the expansion unit extension function, and FIG. 13 is the expansion unit with the expansion unit function. The fifth embodiment of the present invention will be described with reference to these drawings.
[0079]
The automatic switch system shown in FIG. 10 includes a slave unit extension unit 6 (the present invention) in addition to the master unit 1 (maximum connection load capacity 8A, the number of slave units connectable 6 units) and the slave unit 2 as in the first embodiment. Of the extension unit with extension unit according to the fifth embodiment). In FIG. 10, 4A is a load such as the lighting fixture 4, and 7 is a load extension unit. In addition, it cannot be overemphasized that it replaces with the subunit | mobile_unit 2 and the ventilation fan 3 may be connected.
[0080]
As shown in FIGS. 9 and 10, the extension device unit 6 includes a power supply terminal portion 631 for connection to the commercial power supply AC, a terminal portion 633 connected to the extension device terminal portion 133 side of the parent device 1, and In addition to the terminal unit 633A to which the extension units (6 connectable units) to be connected are connected, the master unit side slave unit line signal detection circuit unit 600, the extension side slave unit line signal detection circuit unit 600A, , A sensor circuit unit 601, a constant voltage circuit unit 605, and a signal processing unit 607.
[0081]
As shown in FIG. 11, each of the power terminal 631, the terminal 633, and the terminal 633A is a quick connection terminal constituted by a pair of terminal plates A72, a pair of lock springs A73, and a button A74. .
[0082]
Returning to FIG. 9, the parent device side child device line signal detection circuit unit 600 is for signal transmission / reception including a human body presence / absence detection result, and at least a signal including the obtained human body presence / absence detection result is transmitted from the terminal unit 633. Send it out. On the other hand, the extension side slave unit line signal detection circuit unit 600A is for signal transmission / reception including a human body presence / absence detection result, and receives at least a signal including a human body presence / absence detection result from the terminal unit 633A.
[0083]
The sensor circuit unit 601 includes a heat ray sensor and detects the presence / absence of the heat using a heat ray from a human body. The constant voltage circuit unit 605 rectifies and smoothes AC power (voltage is 100 V or 200 V) from the power supply terminal unit 631 and supplies the obtained constant voltage DC power to the control circuit unit 607 and the like.
[0084]
The signal processing unit 607 performs signal transmission including the presence / absence detection result of the human body with the parent device 1 via the parent device side child device line signal detection circuit portion 600 and the extension side child device line signal detection circuit portion 600A. Is. For example, when the detection result with the human body is obtained from the sensor circuit unit 601 or the extension side slave unit line signal detection circuit unit 600A, the signal processing unit 607 detects the signal including the detection result as the master unit side slave unit line signal detection. Transmission is performed from the circuit unit 600 to the parent device 1.
[0085]
As shown in FIGS. 11 and 12, such an electric circuit section 60 is mounted on a detection system printed circuit board A43 and a control system / power system printed circuit board B6 housed in a housing formed of a body A1 and a cover A8. . On the control system / power supply system printed circuit board B6, a master unit side slave unit line signal detection circuit unit 600, an extension side slave unit line signal detection circuit unit 600A, a constant voltage circuit unit 605, and a signal processing unit 607 are mounted. Further, as shown in FIG. 9, the parent device side child device line signal detection circuit unit 600 is connected to the signal processing unit 607 via a photo device such as a photocoupler, and the parent device side child device line signal detection circuit unit 600. And the signal processing unit 607 are in an insulated state.
[0086]
The mechanical structure of the extension unit 6 is the same as that of each part of FIG. 3 except for the difference between the control system / power supply printed circuit board B6 and the following FIG. The difference in FIG. 12 is relative to FIG. 4, and the extension unit 6 is provided with the operation holding time setting volume 302 shown in FIG. 4A, as shown in FIG. 12A. Absent.
[0087]
And the subunit | mobile_unit expansion unit 6 comprised in this way is installed and used for a ceiling, as shown in FIG. In addition, D in FIG. 13 is the front-end | tip part of a minus driver, and has shown how to remove plate A3.
[0088]
As mentioned above, according to 5th Embodiment, the sensor circuit part 601 which detects the presence or absence with the heat ray from a human body, the terminal part 633 connected to the subunit | mobile_unit terminal part 133 side of the main | base station 1, and the expansion | extension unit Is connected to the terminal unit 633A, and the control circuit unit 607 that performs signal transmission including the presence / absence detection result of the human body between the terminal unit 633 and the parent unit 1 is connected to the terminal unit 633A side. By connecting slave units, human body presence / absence detection results from each slave unit installed at a larger number of locations are further transmitted to and collected by the master unit 1, so that the presence / absence of human bodies at more locations is detected. The collective control of the load based on the result becomes possible.
[0089]
Further, by including the sensor circuit unit 601 that detects the presence or absence of the heat ray from the human body, the slave extension unit 6 can be used as the slave 2 in addition to the slave extension function.
[0090]
Furthermore, since the base unit side handset line signal detection circuit unit 600 and the signal processing unit 607 are in an insulated state, regardless of the voltage of the commercial power supply to the base unit 1, The voltage of the commercial power supply can be set.
[0091]
(Sixth embodiment)
FIG. 14 is a block diagram of the load extension unit, FIG. 15 is an exploded perspective view of the load extension unit, and FIG. 16 is a plan view of the load extension unit as viewed from each direction. The sixth embodiment will be described.
[0092]
As shown in FIG. 14 (see FIG. 10), the load extension unit 7 shown in FIG. 10 includes a power supply terminal portion 731 for connection to a commercial power supply AC, a load 4A such as a lighting fixture 4 (load capacity: maximum 8A). , 800W for AC100V, 1600W for AC200V) and a control input terminal 733 connected to the load terminal 132 side of the parent device 1 An input detection circuit unit 700, an opening / closing unit 704, a constant voltage circuit unit 705, and a control circuit unit 707 are provided.
[0093]
As shown in FIG. 15, each of the power terminal portion 731, the load terminal portion 732, and the control input terminal portion 733 includes a quick connection terminal constituted by a pair of terminal plates A72, a pair of lock springs A73, and a button A74. It has become.
[0094]
As shown in FIG. 14, the control input detection circuit unit 700 detects a load control state for the load 4 </ b> A immediately below by the master unit 1 from the commercial power supply voltage (AC 100 V or AC 200 V) to the control input terminal unit 733. is there. Specifically, when the master unit 1 drives the load 4A directly below, the voltage of the commercial power supply AC with respect to the load 4A can be detected from the control input terminal unit 733, so that the commercial power supply AC with respect to the load 4A can be detected. The load control state can be detected according to the presence or absence of voltage. The control input detection circuit unit 700 is connected to the control circuit unit 707 via a photo device such as a photocoupler, and the control input detection circuit unit 700 and the control circuit unit 707 are insulated.
[0095]
The opening / closing part 704 is a switch with an opening / closing control terminal (relay RL in the example of FIG. 15) interposed between the power terminal part 731 and the load terminal part 732. When this switch is turned on, the power terminal part 731 is connected to the load terminal portion 732.
[0096]
The constant voltage circuit unit 705 rectifies and smoothes AC power (voltage is 100 V or 200 V) from the power supply terminal unit 731 and supplies the obtained constant voltage DC power to the control circuit unit 707 and the like.
[0097]
The control circuit unit 707 performs opening / closing control of the opening / closing unit 704 in accordance with the load control state detected by the control input detection circuit unit 700. For example, when a load control state in which the parent device 1 is driving the load 4A directly below is detected, the switch of the opening / closing unit 704 is turned on, and if not, the switch is turned off.
[0098]
As shown in FIGS. 15 and 16, such an electric circuit unit 70 is mounted on a control system printed circuit board C6 and a power system printed circuit board C7 that are housed in a housing composed of a body A1 and a cover A8. A control input detection circuit unit 700 and an open / close unit 704 are mounted on the control system printed circuit board C6, and a constant voltage circuit unit 705 and a control circuit unit 707 are mounted on the power system print circuit board C7.
[0099]
In FIG. 15, the control system printed circuit board C6 and the power supply system printed circuit board C7 are electrically connected by the lead wire AL1 and the tape wire AL2, and the heat ray sensor housing as shown in FIGS. 3 and 11 is housed in the housing. Part A4 and support member A5 are not housed.
[0100]
As described above, according to the sixth embodiment, the power supply terminal portion 731 for connecting to the commercial power supply AC, the load terminal portion 732 for connecting the load 4A, and the load terminal portion 132 side of the parent device 1 are connected. The control input terminal unit 733, the opening / closing unit 704 for opening and closing the connection between the power supply terminal unit 731 and the load terminal unit 732, and the control input terminal unit 733 detect the load control state for the load 4A immediately below by the parent device 1 Since the load extension unit 7 including the control input detection circuit unit 700 that performs and the control circuit unit 707 that performs the open / close control of the open / close unit 704 according to the load control state detected by the control input detection circuit unit 700 is provided. The master unit 1 can collectively control a plurality of slave units.
[0101]
In addition, since the load control state for the load 4A immediately below by the master unit 1 is detected from the control input terminal unit 733, the control signal line is not neatly routed to detect the load control state. Wiring becomes possible, and by adding the load extension unit 7, the load can be applied under the control of the master unit 1 without limit.
[0102]
In addition, since the body which is composed of the body A1 and the cover A8 and is attached to the ceiling is provided, it is not necessary to wire to a switch using a magnet of a distribution board, and wiring is facilitated by using a ceiling-mounted type.
[0103]
Further, since the control input detection circuit unit 700 and the control circuit unit 707 are in an insulated state, it is not necessary to make the voltages of the loads on both sides across the load expansion unit 7 the same.
[0104]
(Seventh embodiment)
17 is a configuration diagram of an automatic switch system including a master unit, a slave unit, a ventilation fan unit, a slave unit extension unit and a load extension unit, FIG. 18 is an exploded perspective view of the master unit in FIG. 17, and FIG. 20 is an explanatory diagram of the human body detection area of the parent device, FIG. 21 is an exploded perspective view of the child device in FIG. 17, and FIG. 22 is a plan view of the child device from each direction. The seventh embodiment of the present invention will be described with reference to these drawings.
[0105]
The automatic switch system according to the seventh embodiment includes a master unit, a slave unit, a ventilation fan unit, a slave unit extension unit, and a load extension unit. As shown in FIG. 17, the respective electric circuit units 10, 20, 30A, 60 are provided. , 70 are connected via electric wires.
[0106]
Here, to supplement the mechanical structure of the master unit, as shown in FIGS. 18 and 19, the master unit has the mechanical structure of the ventilation fan unit, slave unit extension unit and load extension unit described so far. Among them, it is most similar to the structure of the ventilation fan shown in FIG. The difference from the ventilation fan is that the electric circuit unit 10 described in FIG. 1 is mounted on the printed boards D6 and D7, and a lens B42 having a wider angle than the lens A42. Note that the conventional parent device is also a lens that is not wide-angle.
[0107]
The lens B42 includes a four-divided lens portion provided around the innermost periphery, a ten-divided lens portion provided around the outer periphery of the four-divided lens portion, and a periphery provided around the ten-divided lens portion. It has a structure that integrally has the 16-divided lens portion. Thereby, the human body detection area is expanded as shown in FIG. That is, φ 7.0 m just below 2.5 m, φ 9.8 m right below 3.5 m, and φ 3.1 m right below 2.5 m and φ 4.4 m right below 3.5 m when the lens hood is attached.
[0108]
As a supplementary explanation of the mechanical structure of the slave unit, as shown in FIGS. 21 and 22, the slave unit is a diagram of the mechanical structure of the ventilation fan unit, the slave unit extension unit, and the load extension unit described so far. It is most similar to the structure of 11 extension unit. The difference from the extension unit is that the electric circuit unit 20 described with reference to FIG. 1 is mounted on the printed circuit board E6, and a lens B42 having a wider angle than the lens A42, and the human body detection area is shown in FIG. It is a point that is expanding.
[0109]
By providing such a system, for example, a system as shown in FIG. 23 can be easily configured. Note that reference numeral 8 in FIG. 23 denotes a load operation unit. Moreover, although each electric circuit part of the main unit 1, the ventilation fan 3, the load expansion unit 7, the sub unit expansion unit 6, and the sub unit 2 in FIG. 23 has already been described, the schematic configuration of each is illustrated in FIG. ) To (e), and a schematic configuration of the operation unit 8 is shown in FIG.
[0110]
In such an automatic switch system, if any of the master unit 1, the slave unit 2, the ventilation fan unit 3, and the slave unit extension unit 6 detects the presence of a human body, the brightness of the parent unit on the illumination side Depending on the illuminance setting of the sensor, the illumination is turned on or kept off. Moreover, if the ventilation fan 3 detects the presence of a human body, it operates the ventilation fan 5 for a set timer.
[0111]
For each of the parent unit 1, the child unit 2, the ventilation fan unit 3 and the child unit expansion unit 6, products of 100V and 200V are lined up. Depending on the combination of products, different power sources for lighting, lighting / ventilation fans It is possible to wire different power sources.
[0112]
For example, the AC100 / 200V main unit has a rating of 8A, and the number of connected lamps is determined by this rating. . Here, the number of connected lamps of the inverter fluorescent lamp of the lighting fixture is shown in FIGS. 25 (a) is a PS inverter (ENH), (b) is a PC inverter (ECH), (c) is an Hf inverter (PT · PR), (d) is an Hf inverter (PN), and (e) is an Hf inverter. (PS) and (f) are PS inverters (ENM, lamp-free), (g) is a PC inverter (EDH), (h) is an Hf inverter (PH / SPH), (i) is an Hf inverter (PE), ( j) is an Hf inverter (PD), and (k) is an HF inverter (PH). 26A shows the strong inverter (E), FIG. 26B shows the twin Pa, FIG. 26C shows the light bulb type fluorescent lamp, and FIG. 26D shows the number of connected lamps of other lighting loads.
[0113]
The load expansion unit 7 can increase the lighting load, that is, increase the capacity. The slave unit extension unit 6 enables further multi-point detection, and can be used in a wide space such as a public facility. When the heat source is detected, the master unit 1 and the ventilation fan 3 start lighting and driving the ventilation fan for the set operation time. If the heat source is detected again while the lighting is on and the ventilation fan is driven, the timer time is retriggered. Regarding the operation holding time of the main unit or the ventilation fan, when the operation holding time setting means is a multi-contact switch, it is possible to set nine operation holding times within a range of about 10 seconds to 30 minutes, for example. . The main unit and the ventilation fan each have a built-in manual switch for lighting and a ventilation fan manual switch, and can be forcibly switched on, off, and automatically. The brightness sensor that sets the illuminance for turning on the illumination can be set from about 5 lx or less to 10000 lx or more, and the optimal lighting illuminance can be set even in various spaces.
[0114]
Here, conventionally, as shown in FIG. 27 and FIG. 28, since the main unit and the sub unit (multiple locations) are wired using the magnet MG, wiring to the panel is required. . In addition, the switch has a control limitation.
[0115]
On the other hand, this automatic switch system can detect multiple locations (there is no limit on the number of slave units by connecting slave extension units), making it easy to embed in high-capacity loads (magnets, etc.) ), Combined control of 100V and 200V different power loads can be performed in combination with the extension unit, and multi-point detection, high-capacity load control, interlocking control with lighting / ventilation fan (delayed off control) It is possible to obtain an effect that a possible system can be configured.
[0116]
Moreover, since each of the master unit 1, the slave unit 2, the ventilation fan unit 3, the slave unit extension unit 6 and the load extension unit 7 is attached to the ceiling, an automatic switch system can be configured by wiring work only on the ceiling.
[0117]
(Eighth embodiment)
29 is a diagram showing an automatic switch system including a master unit, a slave unit, and a ventilation fan unit, FIG. 30 is an operation explanatory diagram of the system of FIG. 29, and FIG. 31 is a circuit configuration diagram of the master unit in FIG. The eighth embodiment of the present invention will be described with reference to these drawings.
[0118]
29, as described in the last paragraph of the first embodiment, the detection result of the sensor circuit unit 101 is transmitted from the slave terminal unit 133 to the outside through the slave unit signal transmission / detection circuit unit 100. The control circuit unit 107 of the parent device 1 is configured so as to output.
[0119]
However, in the case of this configuration, as shown in FIGS. 30 and 31, the slave unit signal transmission / detection circuit unit 100 receives a signal transmission instruction including, for example, a detection result with a human body from the control circuit unit 107. The signal is configured to be sent from the handset terminal unit 133.
[0120]
In the circuit configuration example of FIG. 31, when the control circuit unit 107 receives a detection result with a human body from the pyroelectric element 101a constituting the heat ray sensor of the sensor circuit unit 101, the control circuit unit 107 transmits a signal including the detection result with a human body as a transmission instruction. The ON signal is output to the slave unit signal transmission / detection circuit unit 100. When receiving the instruction (ON signal) from the control circuit unit 107, the slave unit signal transmission / detection circuit unit 100 turns on the transistor Tr100, connects the Zener diode ZD100 to the ground, and detects the presence of the zener voltage. The signal including the result is sent out from the handset terminal unit 133.
[0121]
In the example of FIG. 30, a voltage of DC 12V appears at the child terminal unit 133 at the output of the constant voltage circuit unit 105, and this voltage drops to the above zener voltage of 6.5V. Is sent to the handset line connected to the handset terminal section 133. In addition, a signal including a detection result indicating the presence of a human body is transmitted regardless of the surrounding brightness. Needless to say, the signal including the detection result of the absence of a human body is DC12V.
[0122]
Here, conventionally, the ceiling-mounted type automatic switch with a heat ray sensor is intended to perform load control of 2, 3 A with a relay and a semiconductor element assuming a general house. Up to two slave units can be connected, and there was a limit to the expansion of the human body detection area. In the case of a load that exceeds the capacity, or when detecting a human body in many places, there is only wiring using a magnet or the like, and it is difficult to use in a wide space (FIGS. 27 and 28).
[0123]
On the other hand, according to this automatic switch system, it is possible to use all human body presence / absence detection results in the system as control signals. Further, in this case, when the control circuit unit 307 of the ventilation fan 3 is set to “automatic” by the changeover switch 306, a detection result with a human body is obtained from at least one of the terminal unit 333 and the sensor circuit unit 301. Every time, the operation holding time set by the operation holding time setting volume 302, the opening / closing unit 304 is closed, and the power obtained from the power supply terminal unit 331 is supplied to the load terminal unit 332. The ventilation fan 5 can be turned off in a wider space.
[0124]
In addition, since a signal including a human body presence / absence detection result is transmitted regardless of ambient brightness, the ventilation fan 5 can be suitably driven through the ventilation fan 3.
[0125]
(Ninth embodiment)
FIG. 32 is a block diagram of the master unit, and FIG. 33 is a diagram for explaining the operation of the opening / closing part of the hybrid in FIG. 32. The ninth embodiment of the present invention will be described with reference to these drawings.
[0126]
As shown in FIG. 32, the parent device of the ninth embodiment includes a hybrid configuration opening / closing unit 104A and a control circuit unit 107 as a difference from the parent device of each of the previous embodiments. Note that 103a in FIG. 32 (a) is the brightness setting knob shown in FIG. 19 (a).
[0127]
The opening / closing part 104 </ b> A is configured by a relay, and the relay opening / closing part 104 a for electrically connecting the load terminal part 132 to the power supply terminal part 131, and the load switching part 132 configured by a semiconductor switching element is electrically connected to the power supply terminal part 131. In addition to a semiconductor open / close unit 104b for connection to the delay circuit unit 104, a delay circuit unit 104c, a relay control unit 104d, and a semiconductor control unit 104e are provided.
[0128]
When receiving a SET signal for electrically connecting the load terminal unit 132 to the power supply terminal unit 131 from the control circuit unit 107, the delay circuit unit 104c delays the SET signal for a predetermined time. Here, the SET signal is output, for example, when a detection result with a human body is obtained.
[0129]
The relay control unit 104d turns on the relay opening / closing unit 104a at the time of the delayed rising of the SET signal, and electrically disconnects the load terminal unit 132 from the power supply terminal unit 131 when the relay opening / closing unit 104a is in the on state. In response to the rising edge of the RESET signal, the relay opening / closing unit 104a is controlled to be turned off while the semiconductor opening / closing unit 104b is on. Here, the RESET signal is output, for example, when the operation holding time has elapsed.
[0130]
The semiconductor control unit 104e has a zero-cross detection function, turns on the semiconductor switching unit 104b in response to the rise of the SET signal or RESET signal, turns off the semiconductor switching unit 104b in response to the falling of the SET signal or RESET signal, Control is performed to set, after zero-crossing, a time point at which the semiconductor switching unit 104b is turned on at least in response to the rise of the SET signal.
[0131]
In the open / close unit 104A configured as described above, as shown in FIG. 33A, when the SET signal is output from the control circuit unit 107, the semiconductor open / close unit 104b is turned on after zero crossing in response to the rise of the SET signal. Thus, the relay opening / closing unit 104a is turned on at the time when the SET signal is delayed. Thereafter, in response to the fall of the SET signal (at the time of the fall in the figure), the semiconductor opening / closing part 104b is turned off.
[0132]
When the relay opening / closing unit 104a is in the ON state, as shown in FIG. 33 (b), when the RESET signal is output from the control circuit unit 107, the semiconductor opening / closing unit 104b is (in accordance with the rising edge of the RESET signal). Is turned on), and the relay switching unit 104a is turned off while the semiconductor switching unit 104b is on. Thereafter, in response to the fall of the SET signal (at the time of the fall in the figure), the semiconductor opening / closing part 104b is turned off.
[0133]
As described above, according to the ninth embodiment, since the open / close unit 104A and the control circuit unit 107 have a hybrid configuration, the number of components can be reduced, and the configuration is simplified.
[0134]
In addition, a relay opening / closing unit 104 a configured by a relay for electrically connecting the load terminal unit 132 to the power supply terminal unit 131 and a load switching unit 132 configured by a semiconductor switching element are electrically connected to the power supply terminal unit 131. When the load terminal portion 132 is electrically connected to the power supply terminal portion 131, the semiconductor opening / closing portion 104b is turned on, and the relay opening / closing portion 104a is turned on while the semiconductor opening / closing portion 104b is on. When the semiconductor switching part 104b is turned off and then the load terminal part 132 is electrically disconnected from the power supply terminal part 131, the semiconductor switching part 104b is turned on and the semiconductor switching part 104b is being turned on. Since the relay opening / closing part 104a is turned off and the semiconductor opening / closing part 104b is turned off thereafter, the relay opening / closing part 104a is configured. The contact of the relay can be protected from various troubles, a long life (number of times of opening and closing 100,000 times).
[0135]
(10th Embodiment)
FIG. 34 is a plan view of the lower surface of the master unit with the plate removed, and FIG. 35 is a partially enlarged view of FIG. 34. The tenth embodiment of the present invention will be described with reference to these drawings.
[0136]
As shown in FIGS. 34 and 35, the master unit of the tenth embodiment has a time of 10 points to 9 minutes (10 seconds, 1 minute, 3 minutes) by the operation holding time setting switch 102A. , 6 minutes, 10 minutes, 15 minutes, 20 minutes, 25 minutes, and 30 minutes), and the brightness setting knob 103a can be used to set the brightness within the range of 5 lx or less to 10,000 lx or more. The operating ambient illuminance of the sensor unit 103 can be adjusted.
[0137]
The operation holding time setting switch 102A can switch and set the operation holding time with a minus driver, and the operability on the ceiling is improved. When the brightness setting knob 103a is turned with a finger, the sensitivity can be adjusted to 5 lx or less, about 20 lx or less, about 40 lx or less, about 200 lx or less, or 10,000 lx or more (off). In particular, the amount of rotation in that range is increased so that it is easy to set from 5 lx to 200 lx necessary for actual use.
[0138]
【The invention's effect】
As is apparent from the above, the invention described in claim 1 is a heat ray sensor part that detects the presence or absence of a heat ray from a human body, a power supply terminal part for connecting to a commercial power supply, and a load for connecting a load. A load terminal unit, a slave terminal unit for obtaining a human body presence / absence detection result from the outside, a setting unit for setting the operation holding time to a desired time within a predetermined range of time, and an illuminance sensor for detecting illuminance Each time a detection result with a human body is obtained from at least one of the switch unit, the switching unit for switching the detection result of the illuminance sensor unit between valid and invalid, and the slave terminal unit and the heat ray sensor unit, The set operation holding time, the power obtained from the power supply terminal unit to the load terminal unit is supplied, the switching by the switching unit is effective, and the illuminance detection result by the illuminance sensor unit If it exceeds a predetermined illuminance, it is connected to the child terminal portion in the automatic switch parent device with a hot-wire sensor comprising a control portion that executes control for prohibiting the supply of power obtained from the power terminal portion to the load terminal portion The automatic switch slave unit with a heat ray sensor is connected to a slave unit side heat wire sensor unit for detecting the presence or absence of a heat ray from a human body, a slave unit side power supply terminal unit for connection to a commercial power source, and a load. A slave unit side load terminal, a slave unit side terminal connected to the slave unit terminal via an electric wire, and a slave unit side for setting the operation holding time to a desired time within a predetermined range of time Every time a detection result with a human body is obtained from at least one of the setting unit and the child unit side terminal unit and the child unit side heat ray sensor unit, the operation holding time set in the child unit setting unit, the child unit side The child against the load terminal A control unit that performs control to supply power obtained from the side power supply terminal unit, for example, it is possible to perform a delay-off operation of the ventilation fan and an operation of only the ventilation fan in a bright daytime, Load control according to the detection results at a plurality of locations by the slave unit becomes possible.
[0139]
According to a second aspect of the present invention, in the automatic switch slave unit with a heat ray sensor according to the first aspect, the power source of the slave unit side heat ray sensor unit is taken from the slave unit side power source terminal unit. A power supply separate from the master unit can drive both the slave unit side hot wire sensor unit and the control unit in the automatic switch slave unit with a heat sensor, and connect the slave unit side power terminal to a commercial power source. Even if a load is connected to the side load terminal portion, the automatic switch slave with a hot-wire sensor can be operated independently, so that the automatic switch slave with a hot-wire sensor can be operated independently.
[0140]
According to a third aspect of the present invention, in the automatic switch slave unit with a heat ray sensor according to the first aspect, the power source of the slave unit side hot wire sensor unit is connected to the heat ray sensor via an electric wire connected to the slave unit side terminal unit. Because it is taken from the automatic switch parent unit attached, the child side heat ray sensor unit can be driven by a power supply different from the control unit of the automatic switch child unit with heat ray sensor. A circuit configuration in which the control unit of the switch slave unit is insulated is possible.
[0141]
The invention according to claim 4 is a heat ray sensor part for detecting the presence or absence of a heat ray from a human body, a power supply terminal part for connecting to a commercial power supply, a load terminal part for connecting a load, and a human body from the outside. Slave unit for obtaining presence / absence detection result, setting unit for setting operation holding time to a desired time within a predetermined range, illuminance sensor unit for detecting illuminance, and detection of this illuminance sensor unit Each time a detection result with a human body is obtained from a switching unit for switching the result between valid and invalid, and at least one of the slave terminal unit and the heat ray sensor unit, the operation holding time set by the setting unit, the load If the power obtained from the power supply terminal unit is supplied to the terminal unit, the switching by the switching unit is effective, and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, With a hot wire sensor-equipped automatic switch parent device with a control unit that executes control for prohibiting the supply of power obtained from the power terminal portion to the load terminal portion. An automatic switch slave unit, a slave unit side hot wire sensor unit that detects the presence or absence of a thermal wire from a human body, a slave unit side power terminal unit for connecting to a commercial power source, and a slave unit side for connecting a ventilation fan A load terminal unit, a slave unit side terminal unit connected to the slave unit terminal unit via an electric wire, a slave unit side setting unit for setting the operation holding time to a desired time within a predetermined range of time, and Every time a detection result with a human body is obtained from at least one of the handset-side terminal section and the handset-side heat ray sensor section, the operation holding time set in the handset-side setting section, with respect to the handset-side load terminal section The handset side power terminal Since a control unit for executing control for supplying et resulting power, it is possible to delay OFF ventilators in a wide space.
[0142]
The invention according to claim 5 is a heat ray sensor part for detecting the presence or absence of a heat ray from a human body, a power supply terminal part for connecting to a commercial power source, a load terminal part for connecting a load, and a human body from the outside. Slave unit for obtaining presence / absence detection result, setting unit for setting operation holding time to a desired time within a predetermined range, illuminance sensor unit for detecting illuminance, and detection of this illuminance sensor unit Each time a detection result with a human body is obtained from a switching unit for switching the result between valid and invalid, and at least one of the slave terminal unit and the heat ray sensor unit, the operation holding time set by the setting unit, the load If the power obtained from the power supply terminal unit is supplied to the terminal unit, the switching by the switching unit is effective, and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, With a hot wire sensor-equipped automatic switch parent device with a control unit that executes control for prohibiting the supply of power obtained from the power terminal portion to the load terminal portion. An automatic switch slave unit, a slave unit side hot wire sensor unit that detects the presence or absence of a thermal wire from a human body, a slave unit side power terminal unit for connecting to a commercial power source, and a slave unit side for connecting a ventilation fan A load terminal unit, a slave unit side terminal unit connected to the slave unit terminal unit via an electric wire, a slave unit side setting unit for setting the operation holding time to a desired time within a predetermined range of time, and Every time a detection result with a human body is obtained from at least one of the handset-side terminal section and the handset-side heat ray sensor section, the operation holding time set in the handset-side setting section, with respect to the handset-side load terminal section The handset side power terminal A control unit that executes control to supply power obtained from the control unit, and the setting unit of the automatic switch parent unit with a heat ray sensor selects a desired time from a predetermined range of time and sets it as an operation holding time. On the other hand, the slave unit setting unit includes a switching unit for selecting a desired time from a predetermined range of time and setting it as an operation holding time. Time can be adjusted freely.
[0143]
The invention according to claim 6 is a heat ray sensor part for detecting the presence or absence of a heat ray from a human body, a power supply terminal part for connecting to a commercial power source, a load terminal part for connecting a load, and a human body from the outside. Slave unit for obtaining presence / absence detection result, setting unit for setting operation holding time to a desired time within a predetermined range, illuminance sensor unit for detecting illuminance, and detection of this illuminance sensor unit Each time a detection result with a human body is obtained from a switching unit for switching the result between valid and invalid, and at least one of the slave terminal unit and the heat ray sensor unit, the operation holding time set by the setting unit, the load If the power obtained from the power supply terminal unit is supplied to the terminal unit, the switching by the switching unit is effective, and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, With a hot wire sensor-equipped automatic switch parent device with a control unit that executes control for prohibiting the supply of power obtained from the power terminal portion to the load terminal portion. An automatic switch slave unit, a slave unit side hot wire sensor unit that detects the presence or absence of a thermal wire from a human body, a slave unit side power terminal unit for connecting to a commercial power source, and a slave unit side for connecting a ventilation fan A load terminal unit, a slave unit side terminal unit connected to the slave unit terminal unit via an electric wire, a slave unit side setting unit for setting the operation holding time to a desired time within a predetermined range of time, and Every time a detection result with a human body is obtained from at least one of the handset-side terminal section and the handset-side heat ray sensor section, the operation holding time set in the handset-side setting section, with respect to the handset-side load terminal section The handset side power terminal A control unit that executes control to supply power obtained from the above and a handset line signal detection unit for signal transmission / reception including a human body presence / absence detection result connected to the handset side terminal section, via an optical device Since at least the slave unit line signal detector is insulated from other parts, product wiring is possible by mixing different voltages between the load of the automatic switch parent unit with a hot wire sensor and the ventilation fan of the automatic switch slave unit with a hot wire sensor It becomes.
[0144]
The slave unit with an extension function of the invention of claim 7 includes an automatic switch master unit with a heat ray sensor and an automatic switch slave unit with a heat ray sensor, and the automatic switch master unit with a heat ray sensor is heated by a heat ray from a human body. Operation of heat ray sensor unit for detecting presence / absence, power supply terminal unit for connecting to commercial power supply, load terminal unit for connecting load, slave unit terminal unit for obtaining human body presence / absence detection result, operation A setting unit for setting the holding time to a desired time within a predetermined range of time, an illuminance sensor unit for detecting illuminance, a switching unit for switching the detection result of the illuminance sensor unit to valid or invalid, and Every time a detection result with a human body is obtained from at least one of the terminal unit and the heat ray sensor unit, the operation holding time set by the setting unit and the power obtained from the power supply terminal unit for the load terminal unit are obtained. If the switching by the switching unit is effective and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, supply of power obtained from the power supply terminal unit to the load terminal unit is performed. The automatic switch slave unit with a heat ray sensor is connected to the slave unit terminal unit via an electric wire, and the presence or absence of the thermal unit from the human body A child-unit-side heat ray sensor unit that performs detection, and a child-unit signal sending / detecting unit that, when a detection result indicating the presence of a human body is obtained by the child-unit-side heat ray sensor unit, is transmitted from the child unit-side terminal unit. A first terminal part used in the system and connected to the handset terminal part side of the automatic switch parent with the heat ray sensor; a second terminal part connected to the additional automatic switch slave with the heat ray sensor; The first Since a control unit for performing signal transmission between the heat ray automatic switch main unit with sensors connected to the terminal part, it is possible to collectively control of the load by the human body in the presence or absence detection result of the greater portion.
[0145]
The child device with extension function of the invention according to claim 8 includes an automatic switch parent device with a heat ray sensor and an automatic switch child device with a heat ray sensor, wherein the automatic switch parent device with a heat ray sensor is heated by a heat ray from a human body. Operation of heat ray sensor unit for detecting presence / absence, power supply terminal unit for connecting to commercial power supply, load terminal unit for connecting load, slave unit terminal unit for obtaining human body presence / absence detection result, operation A setting unit for setting the holding time to a desired time within a predetermined range of time, an illuminance sensor unit for detecting illuminance, a switching unit for switching the detection result of the illuminance sensor unit to valid or invalid, and Every time a detection result with a human body is obtained from at least one of the terminal unit and the heat ray sensor unit, the operation holding time set by the setting unit and the power obtained from the power supply terminal unit for the load terminal unit are obtained. If the switching by the switching unit is effective and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, supply of power obtained from the power supply terminal unit to the load terminal unit is performed. The automatic switch slave unit with a heat ray sensor is connected to the slave unit terminal unit via an electric wire, and the presence or absence of the thermal unit from the human body A child-unit-side heat ray sensor unit that performs detection, and a child-unit signal sending / detecting unit that, when a detection result indicating the presence of a human body is obtained by the child-unit-side heat ray sensor unit, is transmitted from the child unit-side terminal unit. An extension side hot wire sensor unit that is used in the system and detects the presence / absence thereof by a heat ray from a human body, a first terminal unit connected to the handset terminal unit side of the automatic switch parent unit with the heat ray sensor, and the additional unit heat A control unit for performing signal transmission including the presence / absence detection result between the second terminal unit to which the automatic switch unit with sensor is connected and the automatic switch unit with heat ray sensor connected to the first terminal unit; Therefore, it is possible to collectively control the load based on the result of detecting the presence / absence of a human body in more places, and the slave unit with a slave unit expansion function can be used as an automatic switch slave unit with a heat ray sensor.
[0146]
The load extension unit of the invention according to claim 9 includes an automatic switch parent device with a heat ray sensor and an automatic switch child device with a heat ray sensor, and the automatic switch parent device with a heat ray sensor detects the presence / absence thereof by a heat ray from a human body. A heat ray sensor unit, a power supply terminal unit for connecting to a commercial power source, a load terminal unit for connecting a load, a slave terminal unit for obtaining a human body presence / absence detection result from outside, and a predetermined operation holding time A setting unit for setting a desired time within a range of time, an illuminance sensor unit for detecting illuminance, a switching unit for switching the detection result of the illuminance sensor unit between valid and invalid, and the slave terminal unit Each time a detection result with a human body is obtained from at least one of the heat ray sensor unit, the operation holding time set by the setting unit, and the power obtained from the power supply terminal unit with respect to the load terminal unit When the switching by the switching unit is effective and the detection result of illuminance by the illuminance sensor unit exceeds a predetermined illuminance, the supply of power obtained from the power terminal unit to the load terminal unit is prohibited. The automatic switch slave unit with a hot-wire sensor is detected by detecting the presence or absence of a slave unit side terminal unit connected to the slave unit terminal unit via an electric wire and a heat ray from a human body. And a slave unit signal transmission / detection unit that sends out a detection result with a human body when the slave unit side heat ray sensor unit obtains a detection result with a human body. Connected to the load extension side power terminal for connecting to the commercial power source, the load extension side load terminal for connecting the load, and the load terminal side of the automatic switch master unit with the heat ray sensor A control input terminal section, an open / close section that opens and closes a connection between the load expansion side power supply terminal section and the load expansion side load terminal section, and the control input terminal section directly below the automatic switch parent unit with the heat ray sensor A control input detection unit that detects a load control state with respect to the load of the load, and a load addition side control unit that performs open / close control of the open / close unit according to the load control state detected by the control input detection unit. The attached automatic switch master can collectively control a plurality of automatic switch slaves with a heat ray sensor.
[0147]
According to a tenth aspect of the present invention, in the load extension unit according to the ninth aspect, the control input detection unit detects the load control state from the voltage of a commercial power source obtained from the control input terminal unit. Wiring can be done neatly without routing extra control signal lines to detect the status. By adding a load expansion unit, the load can be added under the control of the automatic switch master unit with a hot wire sensor. Can do.
[0148]
The invention according to claim 11 is the load extension unit according to claim 9 or 10, wherein the load extension side power supply terminal section, the load extension side load terminal section, the control input terminal section, the switching section and the load extension side control section are stored. Since the switch is provided with a relay and the housing is attached to the ceiling, it is not necessary to wire to a switch using a magnet of a distribution board, and wiring is facilitated by adopting a ceiling-mounted type.
[0149]
The invention according to claim 12 includes an automatic switch master unit with a heat ray sensor, an automatic switch slave unit with a first heat ray sensor, an automatic switch slave unit with a second heat ray sensor, a slave unit with a slave unit extension function, and a load extension unit. In the switch system, the automatic switch master unit with a heat ray sensor includes a heat ray sensor unit for detecting presence / absence by a heat ray from a human body, a power supply terminal unit for connection to a commercial power source, and a load for connecting a load. Terminal unit, external terminal unit for obtaining the presence / absence detection result of the human body from the outside, a setting unit for setting the operation holding time to a desired time within a predetermined range of time, and an illuminance sensor unit for detecting illuminance And each time a detection result with a human body is obtained from at least one of the switching unit for switching the detection result of the illuminance sensor unit to valid or invalid, and the slave terminal unit and the heat ray sensor unit, The operation holding time set by the setting unit and the power obtained from the power supply terminal unit are supplied to the load terminal unit, and the switching by the switching unit is effective, and the illuminance sensor unit detects illuminance. If the result exceeds a predetermined illuminance, a control unit that executes control for prohibiting the supply of power obtained from the power terminal unit to the load terminal unit, the automatic switch slave with the first hot-wire sensor, A child terminal side connected to the child terminal via an electric wire, a child device hot wire sensor for detecting presence / absence by a heat ray from the human body, and detection of presence of a human body in the child device hot wire sensor When the result is obtained, it is provided with a slave unit signal sending / detecting unit for sending it from the slave unit side terminal unit, and the automatic switch slave unit with the second hot-wire sensor detects its presence or absence by a heat ray from the human body. Slave unit side To set the line sensor unit, the handset side power terminal for connecting to the commercial power source, the handset side load terminal for connecting the ventilation fan, and the operation holding time to a desired time within a predetermined range of time. Detection result of presence of a human body from at least one of the slave unit side terminal unit and the slave unit side heat ray sensor unit, the slave unit side terminal unit connected to the slave unit terminal unit via an electric wire, and the slave unit side terminal unit Control for performing the operation holding time set by the slave unit side setting unit and supplying the power obtained from the slave unit side power supply terminal unit to the slave unit side load terminal unit The extension unit with the extension unit is connected to the extension side hot wire sensor unit for detecting presence / absence by a heat ray from a human body, and the extension unit terminal side of the automatic switch parent unit with the heat ray sensor. 1st terminal part and the automatic switch element with the said heat ray sensor added A control unit that performs signal transmission including the presence / absence detection result of the human body between the second terminal unit to which the device is connected and the automatic switch master unit with the heat ray sensor connected to the first terminal unit, The load extension unit is connected to the load extension side power terminal for connecting to the commercial power supply, the load extension side load terminal for connecting the load, and the load terminal side of the automatic switch parent unit with the heat ray sensor. A control input terminal unit, an open / close unit that opens and closes a connection between the load extension side power supply terminal unit and the load extension side load terminal unit, and the control input terminal unit from the automatic switch parent unit with the heat ray sensor A control input detection unit that detects a load control state for a load immediately below, and a load addition side control unit that performs opening / closing control of the opening / closing unit according to the load control state detected by the control input detection unit. Location detection is possible Yes, it is easy to embed in a high-capacity load, and it is possible to control different types of power loads in combination with a slave unit with an extension function, and multi-point detection, high-capacity load control, load / ventilation fan, etc. It is possible to obtain an effect that a system capable of interlocking control (delay off control) can be configured.
[0150]
A thirteenth aspect of the present invention is the automatic switch system according to the twelfth aspect of the present invention, wherein the automatic switch parent device with a heat ray sensor, an automatic switch child device with a first heat ray sensor, an automatic switch child device with a second heat ray sensor, and an additional child device. Since each of the functional slave unit and the load extension unit includes a housing attached to the ceiling, an automatic switch system can be configured by wiring work only on the ceiling.
[0151]
The automatic switch parent device with a heat ray sensor according to the fourteenth aspect of the present invention is the presence / absence detection of a human body sent out from the automatic switch child device with a heat ray sensor provided with a child-device-side heat ray sensor portion for detecting the presence / absence of the heat ray from the human body. The terminal unit for obtaining the result, the heat ray sensor part for detecting the presence / absence by the heat ray from the human body, the power terminal part for connecting to the commercial power source, the load terminal part for connecting the load, and the operation A setting unit for setting the holding time to a desired time within a predetermined range of time, an illuminance sensor unit for detecting illuminance, a switching unit for switching the detection result of the illuminance sensor unit to valid or invalid, and Every time a detection result with a human body is obtained from at least one of the terminal unit and the heat ray sensor unit, the operation holding time set by the setting unit is obtained from the power terminal unit with respect to the load terminal unit. When power is supplied and switching by the switching unit is effective and the detection result of illuminance by the illuminance sensor unit exceeds a predetermined illuminance, supply of power obtained from the power supply terminal unit to the load terminal unit A control unit that executes control to prohibit the presence of a human body in the system since the control unit further executes control to send out the presence / absence detection result of the human body from the slave terminal unit by the heat ray sensor unit. All of the detection results can be used as control signals.
[0152]
According to a fifteenth aspect of the present invention, in the automatic switch parent device with a heat ray sensor according to the fourteenth aspect, the control unit displays the human body presence / absence detection result by the heat ray sensor unit regardless of the detection result of the illuminance sensor unit. Since the control to send out from the slave unit terminal portion is executed, the ventilator fan can be suitably driven through the automatic switch slave unit with a heat ray sensor having the ventilator fan as a load.
[0153]
The automatic switch parent device with a heat ray sensor according to the sixteenth aspect of the present invention is the presence / absence detection of a human body sent out from the automatic switch child device with a heat ray sensor provided with a child-device-side heat ray sensor portion for detecting the presence / absence of the heat ray from the human body. The child terminal part for obtaining the result, the heat ray sensor part for detecting the presence / absence by the heat ray from the human body, the power terminal part for connecting to the commercial power source, the load terminal part for connecting the load, An open / close unit that opens and closes a connection between the load terminal unit and the power supply terminal unit, a setting unit that sets the operation holding time to a desired time within a predetermined range of time, and an illuminance sensor unit that detects illuminance Each time a detection result with a human body is obtained from a switching unit for switching the detection result of the illuminance sensor unit between valid and invalid, and at least one of the slave terminal unit and the heat ray sensor unit, the setting unit sets the detection result. Power supply obtained from the power supply terminal unit is supplied to the load terminal unit by operation holding time and closing control on the opening / closing unit, and switching by the switching unit is effective, and detection of illuminance by the illuminance sensor unit A control unit that executes control for prohibiting supply of power obtained from the power supply terminal unit to the load terminal unit by opening control to the switching unit if the result exceeds a predetermined illuminance, and the switching unit and control Since the hybrid configuration is made by combining the parts, the number of parts can be reduced and the configuration is simplified.
[0154]
The invention described in claim 17 is a child device terminal for obtaining the presence / absence detection result of a human body sent from an automatic switch child device with a heat ray sensor provided with a child device side heat ray sensor unit for detecting the presence / absence of a heat ray from a human body. Part, a heat ray sensor part for detecting the presence or absence by a heat ray from a human body, a power supply terminal part for connecting to a commercial power supply, a load terminal part for connecting a load, the load terminal part and the power supply terminal part An opening / closing unit that opens and closes a connection between the illuminating unit, a setting unit for setting an operation holding time to a desired time within a predetermined range, an illuminance sensor unit that detects illuminance, and a detection result of the illuminance sensor unit Each time a detection result with a human body is obtained from at least one of the slave terminal unit and the heat ray sensor unit, the operation holding time set by the setting unit, the switching unit Vs. Power supply obtained from the power supply terminal unit to the load terminal unit by close control, and switching by the switching unit is effective, and the detection result of illuminance by the illuminance sensor unit exceeds a predetermined illuminance. An automatic switch parent unit with a heat ray sensor comprising: a control unit that executes control for prohibiting supply of power obtained from the power supply terminal unit to the load terminal unit by opening control with respect to the opening and closing unit, Brightness setting means is provided to set the ambient illuminance of the illuminance sensor unit to a desired illuminance selected from a preset range, so that it can meet various needs and can be used in various spaces. Flexible illumination setting is possible.
[0155]
The automatic switch parent device with a heat ray sensor according to the invention of claim 18 detects the presence or absence of a human body sent from the automatic switch child device with a heat ray sensor provided with a child-device-side heat ray sensor portion for detecting the presence or absence of the heat ray from the human body. The child terminal part for obtaining the result, the heat ray sensor part for detecting the presence / absence by the heat ray from the human body, the power terminal part for connecting to the commercial power source, the load terminal part for connecting the load, An open / close unit that opens and closes a connection between the load terminal unit and the power supply terminal unit, a setting unit that sets the operation holding time to a desired time within a predetermined range of time, and an illuminance sensor unit that detects illuminance Each time a detection result with a human body is obtained from a switching unit for switching the detection result of the illuminance sensor unit between valid and invalid, and at least one of the slave terminal unit and the heat ray sensor unit, the setting unit sets the detection result. Power supply obtained from the power supply terminal unit is supplied to the load terminal unit by operation holding time and closing control on the opening / closing unit, and switching by the switching unit is effective, and detection of illuminance by the illuminance sensor unit If the result exceeds a predetermined illuminance, a control unit that executes control for prohibiting the supply of power obtained from the power supply terminal unit to the load terminal unit by opening control to the opening and closing unit, the setting unit, Since it has a selector switch for selecting a desired time from a predetermined range of time and setting it as the operation holding time, the operation holding time can be set even if the automatic switch parent unit with a heat ray sensor is a ceiling-mounted type. It will be easy.
[Brief description of the drawings]
FIG. 1 is a diagram showing an example of the configuration of an automatic switch system including an automatic switch master unit with a heat ray sensor and an automatic switch slave unit with a heat ray sensor.
FIG. 2 is a diagram illustrating a specific connection example of each device in the system.
FIG. 3 is an exploded perspective view showing a specific structure of a ventilation fan.
FIG. 4 is a plan view of the ventilation fan as viewed from each direction.
FIG. 5 is a circuit diagram of the ventilation fan.
FIG. 6 is an explanatory diagram of a human body detection area of the ventilation fan.
FIG. 7 is a diagram showing a configuration example of an automatic switch system including an automatic switch parent device with a heat ray sensor and an automatic switch child device with a heat ray sensor.
FIG. 8 is a block configuration diagram of a ventilation fan.
FIG. 9 is a block configuration diagram of a slave unit with a slave unit extension function;
FIG. 10 is a diagram showing a configuration example of an automatic switch system including a slave unit with an extension function, an automatic switch parent unit with a heat ray sensor, and an automatic switch slave unit with a heat ray sensor.
FIG. 11 is an exploded perspective view of a child unit with the same unit expansion function.
FIG. 12 is a plan view of the child unit with the expansion unit extension function as viewed from each direction.
FIG. 13 is an explanatory diagram of a use state of the extension unit with the extension unit function.
FIG. 14 is a block configuration diagram of a load extension unit.
FIG. 15 is an exploded perspective view of the same load extension unit.
FIG. 16 is a plan view of the same load extension unit as viewed from each direction.
FIG. 17 is a configuration diagram of an automatic switch system including a master unit, a slave unit, a ventilation fan unit, a slave unit extension unit, and a load extension unit.
18 is an exploded perspective view of the parent device in FIG.
FIG. 19 is a plan view of the parent device viewed from each direction.
FIG. 20 is an explanatory diagram of a human body detection area of the parent device.
FIG. 21 is an exploded perspective view of the handset in FIG. 17;
FIG. 22 is a plan view of the child device viewed from each direction.
FIG. 23 is a diagram showing an example of wiring of the automatic switch system.
FIG. 24 is a diagram showing a schematic configuration of a master unit, a ventilation fan, a load extension unit, a slave unit extension unit, a slave unit, and an operation unit.
FIG. 25 is a chart showing the number of connected lamps of the inverter fluorescent lamp of the lighting fixture.
FIG. 26 is a chart showing the number of connected lamps of the inverter fluorescent lamp of the lighting fixture.
FIG. 27 is a diagram showing a state of wiring of a conventional ceiling master unit and slave units using magnets.
FIG. 28 is a diagram showing a state of multi-point wiring of a conventional ceiling master unit and slave units using magnets.
FIG. 29 is a diagram showing an automatic switch system including a master unit, a slave unit, and a ventilation fan unit.
30 is an explanatory diagram of the operation of the system shown in FIG. 29. FIG.
FIG. 31 is a circuit configuration diagram of the parent device in FIG. 29;
FIG. 32 is a block diagram of the parent device.
33 is an operation explanatory diagram of the opening / closing part of the hybrid in FIG. 32. FIG.
FIG. 34 is a plan view of the lower surface of the master unit with the plate removed.
35 is a partially enlarged view of FIG. 34. FIG.
FIG. 36 is a diagram showing the appearance of a conventional automatic switch parent with a heat ray sensor.
FIG. 37 is a diagram showing a connection example of a conventional automatic switch parent device with a heat ray sensor and a child device.
FIG. 38 is a diagram showing a connection example of a load and a power source for a conventional automatic switch with a heat ray sensor for a toilet.
[Explanation of symbols]
1 parent device
10 Electrical circuit section
131 Power supply terminal
132 Load terminal
133 Terminal unit
101 Sensor circuit
102 Operation hold time setting volume
103 Brightness sensor
106 changeover switch
107 Control circuit section
2 children
20 Electric circuit part (child unit)
231 terminal
3 Ventilation fan
30 Electric circuit part (of ventilation fan)
331 Power supply terminal
332 Load terminal
333 terminal
301 Sensor circuit section
302 Operation hold time setting volume
307 Control circuit section
4 lighting equipment
5 Ventilation fan
6 extension unit
7 Load extension unit

Claims (18)

A heat ray sensor unit that detects the presence or absence of heat from a human body, a power supply terminal unit for connecting to a commercial power supply, a load terminal unit for connecting a load, and a child for obtaining the presence / absence detection result of a human body from the outside A device terminal unit, a setting unit for setting the operation holding time to a desired time within a predetermined range of time, an illuminance sensor unit for detecting illuminance, and switching the detection result of the illuminance sensor unit to valid or invalid Each time a detection result indicating presence of a human body is obtained from at least one of the switching unit, the slave terminal unit, and the heat ray sensor unit, the operation holding time set by the setting unit, and the power supply terminal with respect to the load terminal unit If the switching by the switching unit is effective and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, the power to the load terminal unit is A control unit and a heat ray automatic switch slave unit with sensors connected to the slave unit terminal area in with heat ray sensor automatically switches master unit comprising executing a control to prohibit the power supply obtained from a power supply terminal portion,
A slave unit side hot wire sensor unit for detecting presence / absence by a heat ray from a human body, a slave unit side power source terminal unit for connecting to a commercial power source, a slave unit side load terminal unit for connecting a load, and the slave unit A handset side terminal section connected to the terminal section via an electric wire, a handset side setting section for setting the operation holding time to a desired time within a predetermined range, the handset side terminal section and the handset Each time a detection result with a human body is obtained from at least one of the side heat ray sensor units, the operation holding time set in the slave unit side setting unit, the slave unit side power terminal unit with respect to the slave unit side load terminal unit And an automatic switch slave with a heat ray sensor, comprising: a control unit that executes control for supplying power obtained from 2. The automatic switch slave unit with a heat ray sensor according to claim 1, wherein the power source of the slave unit side heat ray sensor unit is taken from the slave unit side power source terminal unit. The automatic power supply with a heat ray sensor according to claim 1, wherein the power source of the slave unit side heat ray sensor unit is taken from the automatic switch master unit with the heat ray sensor via an electric wire connected to the slave unit side terminal unit. Switch child unit. A heat ray sensor unit that detects the presence or absence of heat from a human body, a power supply terminal unit for connecting to a commercial power supply, a load terminal unit for connecting a load, and a child for obtaining the presence / absence detection result of a human body from the outside A device terminal unit, a setting unit for setting the operation holding time to a desired time within a predetermined range of time, an illuminance sensor unit for detecting illuminance, and switching the detection result of the illuminance sensor unit to valid or invalid Each time a detection result indicating presence of a human body is obtained from at least one of the switching unit, the slave terminal unit, and the heat ray sensor unit, the operation holding time set by the setting unit, and the power supply terminal with respect to the load terminal unit If the switching by the switching unit is effective and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, the power to the load terminal unit is An automatic switch slave unit with a hot-wire sensor connected to the slave unit terminal unit in the automatic switch master unit with a hot-wire sensor, comprising a control unit that executes control for prohibiting the supply of power obtained from the power terminal unit There,
The child unit side heat ray sensor part which detects the presence or absence by the heat ray from the human body, the child unit side power supply terminal part for connecting to the commercial power source, the child unit side load terminal part for connecting the ventilation fan, and the child unit The terminal side terminal part connected to the terminal part via an electric wire, the handset side setting part for setting the operation holding time to a desired time within a predetermined range of time, the handset side terminal part and the handset Every time a detection result with a human body is obtained from at least one of the side heat ray sensor units, the operation holding time set in the slave unit side setting unit, the slave unit side power terminal unit with respect to the slave unit side load terminal unit And an automatic switch slave with a heat ray sensor, comprising: a control unit that executes control for supplying power obtained from A heat ray sensor unit that detects the presence or absence of heat from a human body, a power supply terminal unit for connecting to a commercial power supply, a load terminal unit for connecting a load, and a child for obtaining the presence / absence detection result of a human body from the outside A device terminal unit, a setting unit for setting the operation holding time to a desired time within a predetermined range of time, an illuminance sensor unit for detecting illuminance, and switching the detection result of the illuminance sensor unit to valid or invalid Each time a detection result indicating presence of a human body is obtained from at least one of the switching unit, the slave terminal unit, and the heat ray sensor unit, the operation holding time set by the setting unit, and the power supply terminal with respect to the load terminal unit If the switching by the switching unit is effective and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, the power to the load terminal unit is An automatic switch slave unit with a hot-wire sensor connected to the slave unit terminal unit in the automatic switch master unit with a hot-wire sensor, comprising a control unit that executes control for prohibiting the supply of power obtained from the power terminal unit There,
The child unit side heat ray sensor part which detects the presence or absence by the heat ray from the human body, the child unit side power supply terminal part for connecting to the commercial power source, the child unit side load terminal part for connecting the ventilation fan, and the child unit The terminal side terminal part connected to the terminal part via an electric wire, the handset side setting part for setting the operation holding time to a desired time within a predetermined range of time, the handset side terminal part and the handset Every time a detection result with a human body is obtained from at least one of the side heat ray sensor units, the operation holding time set in the slave unit side setting unit, the slave unit side power terminal unit with respect to the slave unit side load terminal unit A control unit that executes control to supply power obtained from
The setting unit of the automatic switch parent unit with a heat ray sensor includes a switching unit for selecting a desired time from a predetermined range of time and setting it as an operation holding time, while the slave unit setting unit includes a predetermined unit An automatic switch slave with a heat ray sensor, comprising switching means for selecting a desired time from a range of time and setting it as an operation holding time. A heat ray sensor unit that detects the presence or absence of heat from a human body, a power supply terminal unit for connecting to a commercial power supply, a load terminal unit for connecting a load, and a child for obtaining the presence / absence detection result of a human body from the outside A device terminal unit, a setting unit for setting the operation holding time to a desired time within a predetermined range of time, an illuminance sensor unit for detecting illuminance, and switching the detection result of the illuminance sensor unit to valid or invalid Each time a detection result indicating presence of a human body is obtained from at least one of the switching unit, the slave terminal unit, and the heat ray sensor unit, the operation holding time set by the setting unit, and the power supply terminal with respect to the load terminal unit If the switching by the switching unit is effective and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, the power to the load terminal unit is An automatic switch slave unit with a hot-wire sensor connected to the slave unit terminal unit in the automatic switch master unit with a hot-wire sensor, comprising a control unit that executes control for prohibiting the supply of power obtained from the power terminal unit There,
The child unit side heat ray sensor part which detects the presence or absence by the heat ray from the human body, the child unit side power supply terminal part for connecting to the commercial power source, the child unit side load terminal part for connecting the ventilation fan, and the child unit The terminal side terminal part connected to the terminal part via an electric wire, the handset side setting part for setting the operation holding time to a desired time within a predetermined range of time, the handset side terminal part and the handset Every time a detection result with a human body is obtained from at least one of the side heat ray sensor units, the operation holding time set in the slave unit side setting unit, the slave unit side power terminal unit with respect to the slave unit side load terminal unit A control unit for performing control to supply power obtained from the above, and a handset line signal detection unit for signal transmission and reception including a human body presence / absence detection result connected to the handset side terminal unit,
An automatic switch slave unit with a heat ray sensor, wherein at least the slave unit line signal detection unit side is insulated from other parts through an optical device. An automatic switch parent device with a heat ray sensor and an automatic switch child device with a heat ray sensor, the automatic switch parent device with a heat ray sensor is connected to a commercial power supply and a heat ray sensor unit for detecting the presence or absence of the heat ray from a human body A power terminal, a load terminal for connecting a load, a slave terminal for obtaining a human body presence / absence detection result from the outside, and an operation holding time for setting a desired time within a predetermined range of time Detection of presence of a human body from at least one of a setting unit, an illuminance sensor unit for detecting illuminance, a switching unit for switching the detection result of the illuminance sensor unit between valid and invalid, and the slave terminal unit and the heat ray sensor unit Each time a result is obtained, the operation holding time set by the setting unit and the power obtained from the power supply terminal unit are supplied to the load terminal unit, and the switching unit performs switching. And a control unit that executes control for prohibiting the supply of power obtained from the power supply terminal unit to the load terminal unit if the illuminance detection result by the illuminance sensor unit exceeds a predetermined illuminance. On the other hand, the automatic switch slave unit with a heat ray sensor includes a slave unit side terminal unit connected to the slave unit terminal unit via an electric wire, and a slave unit side hot wire sensor unit that detects the presence or absence of the thermal unit from a heat ray. In addition, when a detection result with a human body is obtained in the child unit side heat ray sensor unit, it is used in a system including a child unit signal sending / detecting unit that sends the detection result from the terminal unit on the child unit side,
A first terminal connected to the side of the handset terminal of the automatic switch parent with the heat ray sensor, a second terminal to which the additional automatic switch with the heat ray sensor is connected, and the first terminal And a control unit that performs signal transmission with the automatic switch master unit with a heat ray sensor connected to the slave unit. An automatic switch parent device with a heat ray sensor and an automatic switch child device with a heat ray sensor, the automatic switch parent device with a heat ray sensor is connected to a commercial power supply and a heat ray sensor unit for detecting the presence or absence of the heat ray from a human body A power terminal, a load terminal for connecting a load, a slave terminal for obtaining a human body presence / absence detection result from the outside, and an operation holding time for setting a desired time within a predetermined range of time Detection of presence of a human body from at least one of a setting unit, an illuminance sensor unit for detecting illuminance, a switching unit for switching the detection result of the illuminance sensor unit between valid and invalid, and the slave terminal unit and the heat ray sensor unit Each time a result is obtained, the operation holding time set by the setting unit and the power obtained from the power supply terminal unit are supplied to the load terminal unit, and the switching unit performs switching. And a control unit that executes control for prohibiting the supply of power obtained from the power supply terminal unit to the load terminal unit if the illuminance detection result by the illuminance sensor unit exceeds a predetermined illuminance. On the other hand, the automatic switch slave unit with a heat ray sensor includes a slave unit side terminal unit connected to the slave unit terminal unit via an electric wire, and a slave unit side hot wire sensor unit that detects the presence or absence of the thermal unit from a heat ray. In addition, when a detection result with a human body is obtained in the child unit side heat ray sensor unit, it is used in a system including a child unit signal sending / detecting unit that sends the detection result from the terminal unit on the child unit side,
An additional-side hot-wire sensor unit for detecting the presence or absence of the heat-wire from a human body, a first terminal unit connected to the handset terminal unit side of the automatic switch parent unit with the hot-wire sensor, and the additional automatic switch with the hot-wire sensor A control unit that performs signal transmission including the presence / absence detection result between the second terminal unit to which the slave unit is connected and the automatic switch master unit with a heat ray sensor connected to the first terminal unit; A special extension unit with extension function. An automatic switch parent device with a heat ray sensor and an automatic switch child device with a heat ray sensor, the automatic switch parent device with a heat ray sensor is connected to a commercial power supply and a heat ray sensor unit for detecting the presence or absence of the heat ray from a human body A power terminal, a load terminal for connecting a load, a slave terminal for obtaining a human body presence / absence detection result from the outside, and an operation holding time for setting a desired time within a predetermined range of time Detection of presence of a human body from at least one of a setting unit, an illuminance sensor unit for detecting illuminance, a switching unit for switching the detection result of the illuminance sensor unit between valid and invalid, and the slave terminal unit and the heat ray sensor unit Each time a result is obtained, the operation holding time set by the setting unit and the power obtained from the power supply terminal unit are supplied to the load terminal unit, and the switching unit performs switching. And a control unit that executes control for prohibiting the supply of power obtained from the power supply terminal unit to the load terminal unit if the illuminance detection result by the illuminance sensor unit exceeds a predetermined illuminance. On the other hand, the automatic switch slave unit with a heat ray sensor includes a slave unit side terminal unit connected to the slave unit terminal unit via an electric wire, and a slave unit side hot wire sensor unit that detects the presence or absence of the thermal unit from a heat ray. In addition, when a detection result with a human body is obtained in the child unit side heat ray sensor unit, it is used in a system including a child unit signal sending / detecting unit that sends the detection result from the terminal unit on the child unit side,
Load extension side power terminal for connecting to commercial power supply, load extension side load terminal for connecting load, and control input terminal connected to the load terminal side of the automatic switch parent device with the heat ray sensor An open / close unit that opens and closes a connection between the load extension side power supply terminal unit and the load extension side load terminal unit, and a load applied to a load immediately below by the automatic switch parent unit with the heat ray sensor from the control input terminal unit A load addition unit comprising: a control input detection unit that detects a control state; and a load addition side control unit that performs opening / closing control of the opening / closing unit according to a load control state detected by the control input detection unit . The load extension unit according to claim 9, wherein the control input detection unit detects the load control state from a voltage of a commercial power source obtained from the control input terminal unit. The load expansion side power supply terminal unit, the load expansion side load terminal unit, the control input terminal unit, a switching unit, and a load expansion side control unit are housed in a housing that is attached to the ceiling, and the switching unit is configured by a relay. The load expansion unit according to claim 9 or 10. An automatic switch system including an automatic switch parent with a heat ray sensor, an automatic switch child with a first heat ray sensor, an automatic switch child with a second heat ray sensor, a child with a child extension function, and a load extension unit,
The automatic switch master unit with a heat ray sensor includes a heat ray sensor unit that detects the presence or absence of a heat ray from a human body, a power supply terminal unit for connecting to a commercial power source, a load terminal unit for connecting a load, and an external device. A handset terminal for obtaining the presence / absence detection result of a human body, a setting unit for setting the operation holding time to a desired time within a predetermined range, an illuminance sensor unit for detecting illuminance, and the illuminance sensor unit Each time a detection result with a human body is obtained from at least one of the slave terminal unit and the heat ray sensor unit, the operation holding time set in the setting unit, The power obtained from the power supply terminal unit is supplied to the load terminal unit, the switching by the switching unit is effective, and the illuminance detection result by the illuminance sensor unit exceeds a predetermined illuminance. Long as it, and a control unit for executing control for prohibiting the supply of electric power obtained from the power supply terminal portion with respect to the load terminal portion,
The automatic switch slave unit with the first heat ray sensor includes a slave unit side terminal unit connected to the slave unit terminal unit via an electric wire, a slave unit side hot wire sensor unit that detects the presence / absence by a heat ray from a human body, When a detection result with a human body is obtained in this child-unit-side heat ray sensor unit, a child-unit signal sending / detecting unit for sending this from the child-unit-side terminal unit is provided,
The automatic switch slave unit with the second heat ray sensor connects a slave unit side heat wire sensor unit for detecting presence / absence by a heat ray from a human body, a slave unit side power supply terminal unit for connection to a commercial power source, and a ventilation fan. The child device side load terminal portion, the child device side setting portion for setting the operation holding time to a desired time within a predetermined range of time, and the child device side terminal connected to the child device terminal portion via an electric wire Each time the detection result with the human body is obtained from at least one of the terminal unit and the terminal side heat ray sensor unit, the operation holding time set in the handset side setting unit, the handset side load A control unit that executes control for supplying power obtained from the slave unit side power supply terminal unit to the terminal unit,
The slave unit with extension function includes an extension side hot wire sensor unit for detecting presence / absence by a heat ray from a human body, and a first terminal unit connected to the slave unit terminal side of the automatic switch master unit with the heat ray sensor; Including the detection result of the presence or absence of a human body between the second terminal portion to which the additional automatic switch device with a heat ray sensor connected is connected and the automatic switch parent device with the heat ray sensor connected to the first terminal portion. A control unit for performing signal transmission,
The load extension unit is connected to the load extension side power terminal part for connecting to the commercial power supply, the load extension side load terminal part for connecting the load, and the load terminal part side of the automatic switch master unit with the heat ray sensor. A control input terminal unit; an open / close unit that opens and closes a connection between the load extension side power supply terminal unit and the load extension side load terminal unit; and from the control input terminal unit, the automatic switch parent unit with a heat ray sensor A control input detection unit that detects a load control state with respect to a load immediately below, and a load addition side control unit that performs open / close control of the open / close unit according to the load control state detected by the control input detection unit. Automatic switch system featuring Each of the automatic switch parent unit with the heat ray sensor, the automatic switch child unit with the first heat ray sensor, the automatic switch child unit with the second heat ray sensor, the child unit with the child extension function, and the load extension unit has a housing attached to the ceiling. 13. The automatic switch system according to claim 12, further comprising: A child terminal part for obtaining the presence / absence detection result of the human body sent from the automatic switch child device with a heat wire sensor equipped with a child device side heat wire sensor portion for detecting the presence / absence by a heat ray from the human body, and a heat ray from the human body A heat ray sensor unit for detecting the presence / absence thereof, a power supply terminal unit for connecting to a commercial power source, a load terminal unit for connecting a load, and an operation holding time for setting a desired time within a predetermined range of time Detection of presence of a human body from at least one of a setting unit, an illuminance sensor unit for detecting illuminance, a switching unit for switching the detection result of the illuminance sensor unit between valid and invalid, and the slave terminal unit and the heat ray sensor unit Each time a result is obtained, the operation holding time set by the setting unit, the power obtained from the power supply terminal unit is supplied to the load terminal unit, and switching by the switching unit is possible. If the illuminance of the detection result of the illuminance sensor unit comprising a can if above a predetermined illuminance, and a control unit for executing control for prohibiting the supply of electric power obtained from the power supply terminal portion with respect to the load terminal portion,
This control part further performs control which sends out the presence-and-absence detection result of the human body by the said heat ray sensor part from the said subunit | mobile_unit terminal part, The automatic switch parent | base with a heat ray sensor characterized by the above-mentioned. The said control part performs control which sends out the detection result of the presence or absence of a human body by the said heat ray sensor part from the said subunit | mobile_unit terminal part irrespective of the detection result of the said illumination intensity sensor part, The heat ray | wire of Claim 14 characterized by the above-mentioned. Automatic switch master unit with sensor. A child terminal part for obtaining the presence / absence detection result of the human body sent from the automatic switch child device with a heat wire sensor equipped with a child device side heat wire sensor portion for detecting the presence / absence by a heat ray from the human body, and a heat ray from the human body The hot-wire sensor unit for detecting the presence / absence thereof, the power source terminal unit for connecting to the commercial power source, the load terminal unit for connecting the load, and the connection between the load terminal unit and the power source terminal unit are opened and closed. An open / close unit, a setting unit for setting the operation holding time to a desired time within a predetermined range of time, an illuminance sensor unit for detecting illuminance, and for switching the detection result of the illuminance sensor unit to valid or invalid Each time a detection result indicating the presence of a human body is obtained from at least one of the switching unit and the slave terminal unit and the heat ray sensor unit, the load is maintained by the operation holding time set by the setting unit and the closing control for the opening / closing unit. When the power obtained from the power supply terminal unit is supplied to the child unit, and the switching by the switching unit is effective, and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, the opening / closing unit And a control unit that executes control for prohibiting the supply of power obtained from the power supply terminal unit to the load terminal unit by opening control with respect to the load terminal unit, and the opening / closing unit and the control unit are combined to form a hybrid configuration. Automatic switch master unit with heat ray sensor. A child terminal unit for obtaining the presence / absence detection result of the human body sent from the automatic switch child device with a heat ray sensor equipped with a child device side heat wire sensor portion for detecting the presence / absence by a heat ray from the human body, and a heat ray from the human body A hot-wire sensor unit for detecting the presence / absence thereof, a power supply terminal unit for connecting to a commercial power supply, a load terminal unit for connecting a load, and opening / closing a connection between the load terminal unit and the power supply terminal unit An opening / closing unit, a setting unit for setting the operation holding time to a desired time within a predetermined range of time, an illuminance sensor unit for detecting illuminance, and for switching the detection result of the illuminance sensor unit to valid or invalid Each time a detection result indicating the presence of a human body is obtained from at least one of the switching unit, the slave terminal unit, and the heat ray sensor unit, the load is determined by the operation holding time set by the setting unit and the closing control for the opening / closing unit. When the power obtained from the power supply terminal unit is supplied to the child unit, and the switching by the switching unit is effective, and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, the opening / closing unit An automatic switch parent unit with a heat ray sensor comprising a control unit that executes control for prohibiting the supply of power obtained from the power supply terminal unit to the load terminal unit by open control with respect to the load terminal unit,
An automatic switch parent with a heat ray sensor, comprising brightness setting means for setting the operating ambient illuminance of the illuminance sensor unit to a desired illuminance selected from a preset range. A child terminal unit for obtaining the presence / absence detection result of the human body sent from the automatic switch child device with a heat ray sensor equipped with a child device side heat wire sensor portion for detecting the presence / absence by a heat ray from the human body, and a heat ray from the human body A hot-wire sensor unit for detecting the presence / absence thereof, a power supply terminal unit for connecting to a commercial power supply, a load terminal unit for connecting a load, and opening / closing a connection between the load terminal unit and the power supply terminal unit An opening / closing unit, a setting unit for setting the operation holding time to a desired time within a predetermined range of time, an illuminance sensor unit for detecting illuminance, and for switching the detection result of the illuminance sensor unit to valid or invalid Each time a detection result indicating the presence of a human body is obtained from at least one of the switching unit, the slave terminal unit, and the heat ray sensor unit, the load is determined by the operation holding time set by the setting unit and the closing control for the opening / closing unit. When the power obtained from the power supply terminal unit is supplied to the child unit, and the switching by the switching unit is effective, and the detection result of the illuminance by the illuminance sensor unit exceeds a predetermined illuminance, the opening / closing unit A control unit that executes control for prohibiting supply of power obtained from the power supply terminal unit to the load terminal unit by open control with respect to
The automatic switch parent unit with a heat ray sensor, wherein the setting unit includes a selector switch for selecting a desired time from a predetermined range of time and setting the selected time as an operation holding time.

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