JP3969290B2 - Hot wire automatic switch - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a hot-wire automatic switch that automatically turns on / off a lighting load by detecting heat rays radiated from a human body or the like.
[0002]
[Prior art]
Conventionally, such a hot-wire automatic switch as shown in FIG. 9 is known (see Patent Document 1).
[0003]
This conventional hot wire type automatic switch A ′ includes a heat ray sensor 1 composed of a pyroelectric element for detecting a heat ray radiated from a human body or the like, and a triac as a switch element inserted into a power supply path from a commercial power supply AC to an illumination load L. Q, a current transformer CT inserted into the power supply path in series with the triac Q, and a signal processing unit 2 as control means for turning on / off the triac Q so as to correspond to the presence or absence of a human body based on the output of the heat ray sensor 1 A stabilized DC operating power supply is obtained from the diode bridge DB connected in parallel to the triac Q, the pulsating output of the diode bridge DB, and the secondary output of the current transformer CT, and supplied to the signal processing unit 2 and the like. An illuminance sensor comprising: a stabilized power supply unit 3 that operates; an operation holding time adjustment unit 4 that adjusts an operation holding time described later; and CdS that detects ambient illuminance 5 and an illuminance sensor adjustment unit 6 for adjusting the detection level of the illuminance sensor.
[0004]
In addition, external connection terminals Ta and Tb are provided at both ends of the power supply path, that is, one end of the current transformer CT and the triac Q that are not connected to the counterparts, and the commercial power supply AC is connected between the external connection terminals Ta and Tb. When the lighting load L is connected in series and the triac Q is on, power is supplied from the commercial power supply AC to the lighting load L.
[0005]
Here, in the off state of the triac Q, the pulsating voltage output from the diode bridge DB is stabilized by the potential difference across the triac Q and the leakage current of the lighting load L to obtain an operating power supply. In the on state of the triac Q, the commercial power supply is obtained. Since the secondary output of the current transformer CT is stabilized by the load current flowing from the AC to the illumination load L to obtain an operating power supply, wiring with two lines is possible.
[0006]
Next, a basic operation in the case where detection is performed at one place using only one conventional hot-wire automatic switch A ′ will be described.
[0007]
When the heat ray radiated from the human body is detected by the heat ray sensor 1, a high-level human body detection signal is output to the signal processing unit 2. When the human body detection signal is output from the heat ray sensor 1, the signal processing unit 2 applies a trigger signal to the trigger terminal of the triac Q to turn on the triac Q to supply power from the commercial power supply AC to the lighting load L and to maintain the operation holding time. Counting is started, and when the operation holding time elapses, the triac Q is turned off and power supply to the illumination load L is stopped. When the human body detection signal is output again from the heat ray sensor 1 during the operation holding time, the signal processing unit 2 starts counting the operation holding time from the beginning.
[0008]
Further, in the signal processing unit 2, when the detection output of the illuminance sensor 5 corresponding to the ambient illuminance exceeds a threshold value, the triac Q is kept off without being turned on even if a human body detection signal is output from the heat ray sensor 1. ing. Therefore, when the surroundings are bright and it is not necessary to turn on the illumination load L, the illumination load L can be turned off regardless of the detection result of the heat ray sensor 1, and wasteful power consumption can be suppressed. An illuminance sensor adjustment unit 6 is provided so that the threshold value can be changed according to various conditions such as the installation location.
[0009]
By the way, in this conventional hot-wire automatic switch A ′, an external connection terminal Tc is provided at a connection point between the current transformer CT and the triac Q, and an external connection terminal Td is provided in parallel with the external connection terminal Tb. As shown in FIG. 10, the external connection terminals Ta of the two hot-wire automatic switches A1 ′ and A2 ′ are connected to the commercial power supply AC and the lighting load L, respectively, and the external connection terminal of one hot-wire automatic switch A1 ′. By connecting Tb and Tc to the external connection terminals Tc and Tb of the other hot-wire automatic switch A2 ′, two locations can be detected using the existing three-way wiring. For example, when a heat ray is detected by one of the hot wire type automatic switches A1 ′ and the triac Q is turned on, an external connection terminal Ta of the commercial power supply AC-hot wire type automatic switch A1′—current transformer CT—heat wire of the hot wire type automatic switch A1 ′. Type automatic switch A1 'triac Q-external connection terminal Tb of hot wire automatic switch A1'-external connection terminal Tc of hot wire automatic switch A2 '-current transformer CT of hot wire automatic switch A2'-hot wire automatic switch A2 ' A closed circuit is formed in the path of the external connection terminal Ta-lighting load L, and power is supplied from the commercial power supply AC to the lighting load L. When the heat ray is detected by the other hot-wire automatic switch A2 ′ and the triac Q is turned on, an external connection terminal Ta of the commercial power supply AC-hot-wire automatic switch A1′-current transformer CT-heat wire of the hot-wire automatic switch A1 ′. Type automatic switch A1 'external connection terminal Tc-hot wire type automatic switch A2' external connection terminal Tb-hot wire type automatic switch A2 'triac Q-hot wire type automatic switch A2' current transformer CT-hot wire type automatic switch A2 ' A closed circuit is formed in the path of the external connection terminal Ta-lighting load L, and power is supplied from the commercial power supply AC to the lighting load L.
[0010]
As described above, the conventional hot-wire automatic switch A ′ can cope with multi-location detection with a simple configuration, and particularly can easily utilize multi-location detection by utilizing the existing three-way wiring. There is an advantage that you can.
[0011]
[Patent Document 1]
JP 2000-124784 A (page 3-4, FIG. 1)
[0012]
[Problems to be solved by the invention]
By the way, the conventional hot-wire automatic switch A ′ has the following problems.
[0013]
That is, when the hot-wire automatic switches A1 ′ and A2 ′ are wired in three ways on a staircase or a corridor, the triac Q is turned on when the hot-wire sensor 1 detects a human body with one of the hot-wire automatic switches A1 ′. When the illumination load L is turned on and the ambient illumination of the other hot-wire automatic switch A2 ′ becomes brighter due to the illumination of the illumination load L after the lighting load L is turned on, the detection area of one hot-wire automatic switch A1 ′ Even if a person who has passed through the stairs or hallway enters the detection area of the other hot-wire automatic switch A2 ', the signal processing unit 2 of the hot-wire automatic switch A2' Since it is kept off, it will be tried if the operation holding time of the hot-wire automatic switch A1 ′ ends even though there is a person in the detection area of the hot-wire automatic switch A2 ′. Click Q was not good usability supposed to lighting load L is turned off will be off.
[0014]
The present invention has been made in view of the above circumstances, and an object thereof is to provide a hot-wire automatic switch with improved usability when used as a three-way switch.
[0015]
[Means for Solving the Problems]
In order to achieve the above object, a first aspect of the present invention provides a heat ray sensor that detects a heat ray, a switch element that is inserted into a power supply path from a power source to a lighting load, and a switch element that is inserted into the power supply path in series. A current transformer, an illuminance sensor for detecting ambient illuminance, and turning on the switch element to respond to the presence or absence of a human body based on the output of the heat ray sensor when the ambient illuminance detected by the illuminance sensor is equal to or less than a predetermined value. -Control means for turning off, and one end of the current transformer that is not connected to the switch element and external connection terminals respectively provided at both ends of the switch element, and the control means is in an off state of the switch element Then, an operating power supply is obtained from the leakage current of the load, and from the secondary side output of the current transformer when the switch element is on, and based on the secondary side output. In a hot-wire automatic switch in which the switch element is turned on / off and the switch element that has been turned on once is turned off after a predetermined operation holding time has elapsed, the lighting load is turned on based on the magnitude of the current flowing through the current transformer. A lighting detection means for detecting, and the control means determines whether the human body is present based on the output of the heat ray sensor regardless of the ambient illuminance detected by the illuminance sensor when the lighting load is detected by the lighting detection means. The switch element is turned on and off so as to correspond.
[0016]
According to a second aspect of the present invention, in the first aspect of the invention, the control unit includes a storage unit that stores a detection value of the illuminance sensor at a predetermined period, and the control unit detects lighting of the illumination load by the lighting detection unit. When the detected value stored in the storage unit at a time point more than a predetermined time from the time point exceeds a preset reference value, the heat ray is detected when the ambient illuminance detected by the illuminance sensor is equal to or less than the predetermined value. The switch element is turned on / off so as to correspond to the presence or absence of a human body based on the output of the sensor.
[0017]
According to a third aspect of the present invention, in the first aspect of the invention, there is provided storage means for storing the detection value of the illuminance sensor at a predetermined period, and the control means detects lighting of the illumination load by the lighting detection means. The first detection value stored in the storage unit at a time point that is a predetermined time or more than the time point is compared with the second detection value stored in the storage means after the lighting is detected, and the first detection value When the difference from the second detection value is less than or equal to a predetermined reference value, the switch is adapted to respond to the presence or absence of the human body based on the output of the heat ray sensor when the ambient illuminance detected by the illuminance sensor is less than or equal to the predetermined value. It is characterized by turning elements on and off.
[0018]
The invention according to claim 4 is the invention according to claim 2 or 3, wherein the control means is a predetermined value of the ambient illuminance between when the lighting detection means detects the lighting load and when it is not detected. Are different values.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
(Embodiment 1)
FIG. 1 shows a circuit block diagram of the hot-wire automatic switch A of the present embodiment, and FIG. 2 shows a wiring diagram in the case where two hot-wire automatic switches A1 and A2 are used as three-way switches to detect multiple locations. However, the hot-wire automatic switch A of the present embodiment basically has the same configuration as the conventional hot-wire automatic switch A ′, and the same components are denoted by the same reference numerals and description thereof is omitted. To do.
[0020]
The hot-wire automatic switch A of the present embodiment is different from the conventional hot-wire automatic switch A ′ in that it includes a lighting detection unit 7 that detects lighting of the lighting load L based on the magnitude of the current flowing through the current transformer CT. At the same time, when the lighting processing unit 7 detects that the illumination load L is detected by the lighting detection unit 7, the signal processing unit 2 serving as a control unit is based on the output of the heat ray sensor 1 regardless of the ambient illuminance detected by the illumination sensor 5. The triac Q is turned on / off so as to correspond to the above. In addition, the lighting detection part 7 is the current transformer CT in the magnitude | size of the leakage current which flows into the current transformer CT in the OFF state (lighting-off state of the lighting load L) of the triac Q, and in the on-state (lighting state of the lighting load L) of the triac Q. The lighting load L is detected from the difference between the magnitude of the load current flowing through the lamp and a lighting detection signal that becomes H level when the lighting load L is detected is output to the signal processing unit 2.
[0021]
Next, as shown in FIG. 3, hot-wire automatic switches A1 and A2 are installed on the lower and upper floors, respectively, and these hot-wire automatic switches A1 and A2, lighting load L, and commercial power supply (not shown) are connected in three ways. The operation of the hot-wire automatic switch A of the present embodiment will be described by taking the case of wiring as an example. Here, the region indicated by the alternate long and short dash line in FIG. 3 is the detection region M1 of the hot-wire sensor 1 in the hot-wire automatic switch A1 downstairs, and the region indicated by the dotted line is the hot-wire sensor 1 in the hot-wire automatic switch A2 upstairs. This is a detection region M2. FIG. 4 shows a time chart when a person moves up the stairs from the downstairs corridor. 4 (a) to 4 (e) relate to the downstairs hot-wire automatic switch A1, and similarly FIGS. 4 (f) to 4 (k) relate to the upstairs hot-wire automatic switch A2, and (a) And (f) is the output of the heat ray sensor 1 (human body detection signal that becomes H level when a person is detected), (b) and (h) are the outputs of the illuminance sensor 5 (representing darker as the level increases), (C) and (i) are determination results obtained by comparing the output of the illuminance sensor 5 with the threshold value Vth in the signal processing unit 2, and (d) and (j) are operation holding times, and (e) and (k) ) Indicates the operating state of the triac Q, (g) indicates a lighting detection signal output from the lighting detection unit 7 in the hot wire automatic switch A2 on the floor, and (l) indicates whether the lighting load L is turned on / off. Yes.
[0022]
First, as shown in FIG. 3A, when the lighting load L is turned off, it is assumed that both the downstairs and the upstairs are sufficiently dark, the output of the illuminance sensor 5 exceeds the threshold value Vth, and the person at time t = t1. When H enters the detection area M1 of the hot-wire automatic switch A1 downstairs, a human body detection signal is output from the hot-wire sensor 1. When the signal processing unit 2 of the hot-wire automatic switch A1 receives the human body detection signal, the triac Q is turned on to turn on the lighting load L, and at the same time, starts counting the operation holding time. Then, when the illumination load L is turned on, the ambient illuminance increases, and the outputs of the illuminance sensors 5 of the respective hot-wire automatic switches A1 and A2 below and below the floor both fall below the threshold value Vth. Further, when the lighting load L is turned on, the current flowing through the current transformer CT increases, and a lighting detection signal is output from the lighting detection unit 7 to the signal processing unit 2.
[0023]
When the person H goes up the stairs and exits the detection area M1 (time t = t2), the human body detection signal is not output from the heat ray sensor 1 of the heat ray automatic switch A1, but the signal is because the operation holding time is being counted. The processing unit 2 maintains the lighting state of the lighting load L while keeping the triac Q on. When the person H enters the detection area M2 of the hot-wire automatic switch A2 on the floor (time t = t3), a human body detection signal is output from the heat-ray sensor 1. At this time, the signal processing unit 2 of the hot-wire automatic switch A2 has the lighting load L lit and the output of the illuminance sensor 5 is below the threshold value Vth, but the lighting detection unit 7 outputs a lighting detection signal. A trigger signal is output to the TRIAC Q without ignoring the human body detection signal, the ON state is maintained, and counting of the operation holding time is started. Accordingly, the lighting state of the lighting load L is maintained even when the operation holding time of the down-seat hot-wire automatic switch A1 has elapsed at time t = t4. When the person H moves up the corridor on the floor and exits the detection area M2 (time t = t5), the human body detection signal is not output from the hot wire sensor 1 of the hot wire automatic switch A2, but the operation holding time is counted. Therefore, the signal processing unit 2 maintains the lighting state of the lighting load L while keeping the triac Q on, and the signal is processed when the operation holding time in the hot-wire automatic switch A2 on the floor has elapsed (time t = t6). The processing unit 2 turns off the triac Q and turns off the lighting load L.
[0024]
On the other hand, when the illumination load L is turned off and sufficient illuminance is obtained, both the downstairs and the upstairs are sufficiently bright, and the output of the illuminance sensor 5 exceeds the threshold value Vth, for example, the hot-wire automatic on the upstairs Even if a person H enters the detection area M2 of the switch A2 and a human body detection signal is output from the heat ray sensor 1 (time t = t7), the output of the illuminance sensor 5 exceeds the threshold value Vth in the signal processing unit 2. Therefore, the human body detection signal is ignored and the triac Q is not turned on, so that the illumination load L is not turned on.
[0025]
As described above, in the hot-wire automatic switch A of the present embodiment, when used as a three-way switch, when the signal processing unit 2 detects lighting of the lighting load L by the lighting detection unit 7, Since the triac Q is turned on / off based only on the detection result of the heat ray sensor 1 regardless of the detection result, for example, when a person moves in one direction on the stairs or hallway, When the lighting load L that is once turned on before moving in the corridor does not go out, the lighting load L can be kept on until the person finishes moving, and as a result, when used as a three-way switch The usability is improved.
[0026]
(Embodiment 2)
As shown in FIG. 5, the hot wire automatic switch A of the present embodiment includes a storage unit 8 that stores the output of the illuminance sensor 5 in a predetermined cycle, and the illuminance sensor 5 that the signal processing unit 2 stores in the storage unit 8. It is characterized in that the ambient illuminance before the lighting load L is lit is determined from the output of, and whether or not to ignore the output of the illuminance sensor 5 according to the ambient illuminance before lighting is determined. Since this is the same as that of the first embodiment, description thereof is omitted.
[0027]
The storage unit 8 includes an A / D conversion circuit that converts an analog output of the illuminance sensor 5 into a digital detection value, an electrically rewritable memory such as an EEPROM, and the like, and digital detection sampled at a predetermined cycle. The value is memorized.
[0028]
When the lighting detection unit 7 detects lighting of the illumination load L, the signal processing unit 2 stores the detection value stored in the storage unit 8 in the temporary storage unit 2a at a time point more than a predetermined time after the detection time point. When the detected value does not exceed the preset reference value Vth1, that is, when the illuminance is higher (brighter) than the illuminance corresponding to the reference value Vth1, the ambient illuminance detected by the illuminance sensor 5 is less than or equal to the threshold value Vth. Sometimes, the triac Q is turned on / off to correspond to the presence or absence of the human body based on the output of the heat ray sensor 1, and conversely when the detected value exceeds a preset reference value Vth1, that is, the reference value When the illuminance is lower (darker) than Vth1, the triac Q is turned on to respond to the presence or absence of the human body based only on the output of the heat ray sensor 1 regardless of the ambient illuminance detected by the illuminance sensor 5.・ Turn it off.
[0029]
Next, as shown in FIG. 6, hot-wire automatic switches A1 and A2 are installed on the lower and upper floors, respectively, and these hot-wire automatic switches A1 and A2, lighting load L, and commercial power supply (not shown) are connected in three ways. The operation of the hot-wire automatic switch A of the present embodiment will be described by taking the case of wiring as an example. Here, the region indicated by the alternate long and short dash line in FIG. 6 is the detection region M1 of the heat ray sensor 1 in the downstairs hot wire automatic switch A1, and the region indicated by the dotted line is the heat ray sensor 1 in the hot wire automatic switch A2 on the floor. This is a detection region M2. FIG. 7 shows a time chart when a person moves up the stairs from the downstairs corridor. FIGS. 7A to 7D relate to the downstairs hot-wire automatic switch A1, and similarly FIGS. 7E to 7K relate to the upstairs hot-wire automatic switch A2. And (e) are human body detection signals output from the heat ray sensor 1, (b) and (g) are outputs of the illuminance sensor 5 (representing darker as the level is higher), and (c) and (j) are operation holding times. , (D) and (k) show the operation state of the triac Q, (f) is a lighting detection signal output from the lighting detection unit 7 in the hot-wire automatic switch A2 on the floor, and (h) is on the floor. The ambient illuminance state (bright or dark) stored in the storage unit 8 of the hot-wire automatic switch A2, (i) is the ambient illuminance state stored in the temporary storage unit 2a of the hot-wire automatic switch A2 on the floor, ( l) shows the lighting load L being turned on / off.
[0030]
First, as shown in FIG. 6A, when the lighting load L is turned off, the downstairs is sufficiently dark, the output of the illuminance sensor 5 exceeds the threshold value Vth, and the upstairs is sufficiently affected by outside light or the like. It is assumed that the output of the illuminance sensor 5 is lower than the threshold value Vth. At this time, when the person H enters the detection area M1 of the down-seat hot-wire automatic switch A1 at time t = t1, a human body detection signal is output from the hot-wire sensor 1. When the signal processing unit 2 of the hot-wire automatic switch A1 receives the human body detection signal, the triac Q is turned on to turn on the lighting load L, and at the same time, starts counting the operation holding time. When the illumination load L is turned on, the ambient illuminance increases, and the output of the illuminance sensor 5 of the hot-wire automatic switch A1 downstairs is below the threshold value Vth. Further, when the lighting load L is turned on, the current flowing through the current transformer CT increases, and a lighting detection signal is output from the lighting detection unit 7 to the signal processing unit 2.
[0031]
Here, in the hot-wire automatic switch A2 on the floor, when the signal processing unit 2 is detected by the lighting detection unit 7 to detect lighting of the illumination load L (time t = t1), a point in time that is more than a predetermined time ( The detected value stored in the storage unit 8 at t = t0) is stored in the temporary storage unit 2a, and the detected value is compared with the reference value Vth1. Since the detected value does not exceed the reference value Vth1, that is, is higher (brighter) than the illuminance corresponding to the reference value Vth1, the signal processing unit 2 does not ignore the output of the illuminance sensor 5 and outputs the illuminance sensor 5. The triac Q is turned on / off so as to correspond to the presence / absence of the human body based on the output of the heat ray sensor 1 only when the value exceeds the threshold value Vth.
[0032]
Even if the person H goes up the stairs and exits the detection area M1, the operation holding time is being counted, so the signal processing unit 2 keeps the lighting load L on with the triac Q kept on. When the person H enters the detection area M2 of the hot-wire automatic switch A2 on the floor (time t = t2), a human body detection signal is output from the heat-ray sensor 1. However, since the signal processing unit 2 of the hot-wire automatic switch A2 does not ignore the output of the illuminance sensor 5 as described above, it does not output a trigger signal to the triac Q and does not start counting the operation holding time. Therefore, when the operation holding time of the downstairs hot wire automatic switch A1 has elapsed (time t = t3), the signal processing unit 2 of the downstairs hot wire automatic switch A1 turns off the triac Q and turns off the lighting load L.
[0033]
On the other hand, it is assumed that the ambient illuminance on the floor is sufficiently low (dark) due to the influence of outside light or the like (time t = t4). At this time, when the person H enters the detection area M1 of the down-seat hot-wire automatic switch A1 at time t = t6, a human-body detection signal is output from the hot-wire sensor 1, and the signal processing unit 2 of the hot-wire automatic switch A1 outputs the human body detection signal. Is received, and the triac Q is turned on to turn on the lighting load L, and at the same time, the operation holding time is counted. When the illumination load L is lit, the ambient illuminance increases, the output of the illuminance sensor 5 of the hot-wire automatic switch A1 downstairs is below the threshold Vth, and when the illumination load L is lit, it flows to the current transformer CT. The current increases, and a lighting detection signal is output from the lighting detection unit 7 to the signal processing unit 2.
[0034]
Here, in the hot-wire automatic switch A2 on the floor, when the signal processing unit 2 goes back a predetermined time or more from the time when the lighting detection unit 7 detects the lighting load L (time t = t6) ( The detected value stored in the storage unit 8 at time t = t5) is stored in the temporary storage unit 2a, and the detected value is compared with the reference value Vth1. Since the detected value exceeds the reference value Vth1, that is, is lower (darker) than the illuminance corresponding to the reference value Vth1, the signal processing unit 2 ignores the output of the illuminance sensor 5 and only the output of the heat ray sensor 1 Based on the above, the triac Q is turned on / off to correspond to the presence or absence of the human body.
[0035]
Even if the person H goes up the stairs and exits the detection area M1, the operation holding time is being counted, so the signal processing unit 2 keeps the lighting load L on with the triac Q kept on. When the person H enters the detection area M2 of the hot-wire automatic switch A2 on the floor (time t = t7), a human body detection signal is output from the hot-wire sensor 1, and the signal processing unit 2 of the hot-wire automatic switch A2 is described above. As described above, the output of the illuminance sensor 5 is ignored and a trigger signal is output to the triac Q to hold the ON state and start counting the operation holding time. Accordingly, the lighting state of the lighting load L is maintained even when the operation holding time of the down-seat hot-wire automatic switch A1 has elapsed at time t = t8. After the person H moves up the hallway on the floor and exits the detection area M2, the signal processing unit 2 of the hot-wire automatic switch A2 on the floor keeps the triac Q on while the operation holding time is being counted. The lighting state of the load L is maintained, and the signal processing unit 2 turns off the triac Q and turns off the lighting load L when the operation holding time in the hot-wire automatic switch A2 on the floor has elapsed (time t = t9).
[0036]
As described above, in the hot-wire automatic switch A of the present embodiment, when the signal processing unit 2 detects the lighting of the lighting load L by the lighting detection unit 7, Depending on the detection result of the illuminance, the output of the illuminance sensor 5 is ignored and the triac Q is turned on / off based only on the detection result of the heat sensor 1, or the output of the illuminance sensor 5 is ignored without being ignored. Since it is selected whether to turn on / off the triac Q based on the detection result of 1, for example, when a person moves on a staircase or a corridor as described above, the moving destination ( If the illuminance around the floor is sufficiently bright, there is no problem even if the lighting load L is turned off before the person H finishes moving on the stairs or hallway, and unnecessary power consumption can be eliminated and power consumption can be suppressed. It should be noted that the ambient illuminance threshold value Vth, which is a criterion for determining whether or not the human body detection signal is ignored in the signal processing unit 2, and the ambient illuminance reference value, which is a criterion for determining whether the output of the illuminance sensor 5 is ignored. Although it may be set to the same value as Vth1, even if the value is different from the threshold value Vth, if the reference value Vth1 is set to an appropriate value according to the situation, the usability is further improved.
[0037]
(Embodiment 3)
Since the configuration of the hot-wire automatic switch A in the present embodiment is the same as that of the second embodiment, the illustration is omitted. The hot-wire automatic switch A of the present embodiment is the first stored in the storage unit 8 when the signal processing unit 2 goes back a predetermined time or more from the time when the lighting detection unit 7 detects lighting of the illumination load L. And the second detected value stored in the storage unit 8 after the lighting is detected, and the ambient illuminance corresponding to the second detected value is not brighter than the ambient illuminance corresponding to the first detected value When the ambient illuminance detected by the illuminance sensor 5 is below a predetermined value, the triac Q is turned on / off to correspond to the presence or absence of the human body based on the human body detection signal of the heat ray sensor 1 and corresponds to the second detection value When the ambient illuminance to be performed is brighter than the ambient illuminance corresponding to the first detection value, the triac Q is set so as to correspond to the human body ratio based only on the human body detection signal of the heat ray sensor 1 regardless of the output of the illuminance sensor 5. Characterized by turning on and off
[0038]
Next, similarly to the first and second embodiments, the hot-wire automatic switches A1 and A2 are respectively installed on the downstairs and the upper floor, and the hot-wire automatic switches A1 and A2, the lighting load L, and the commercial power supply (not shown). The operation of the hot-wire automatic switch A of the present embodiment will be described by taking as an example a case in which three-way wiring is provided. Here, FIG. 8 shows a time chart when a person moves up the stairs from the downstairs corridor. 8 (a) to 8 (d) relate to the downstairs hot-wire automatic switch A1, and similarly, FIGS. 7 (e) to 7 (l) relate to the upstairs hot-wire automatic switch A2, and (a) And (e) are human body detection signals output from the heat ray sensor 1, (b) and (g) are outputs of the illuminance sensor 5 (indicating that the level is darker), and (c) and (k) are operation holding times. , (D) and (l) respectively show the operating state of the triac Q, (f) is a lighting detection signal output from the lighting detection unit 7 in the hot-wire automatic switch A2 on the floor, and (h) is on the floor. Ambient illuminance stored in the storage unit 8 of the hot wire automatic switch A2, (i) is the ambient illuminance stored in the temporary storage unit 2a of the hot wire automatic switch A2 on the floor, and (j) is before and after the lighting load L is turned on. Judgment result of whether or not the ambient illuminance has changed, (m) Shows the turning on and off of the lighting load L.
[0039]
First, as in the second embodiment, when the lighting load L is off, the downstairs is sufficiently dark, the output of the illuminance sensor 5 exceeds the threshold Vth, and the upstairs is sufficiently bright due to the influence of outside light, etc. It is assumed that the output of the illuminance sensor 5 is below the threshold value Vth. At this time, when the person H enters the detection area M1 of the down-seat hot-wire automatic switch A1 at time t = t1, a human body detection signal is output from the hot-wire sensor 1. When the signal processing unit 2 of the hot-wire automatic switch A1 receives the human body detection signal, the triac Q is turned on to turn on the lighting load L, and at the same time, starts counting the operation holding time. When the illumination load L is turned on, the ambient illuminance increases, and the output of the illuminance sensor 5 of the hot-wire automatic switch A1 downstairs is below the threshold value Vth. Further, when the lighting load L is turned on, the current flowing through the current transformer CT increases, and a lighting detection signal is output from the lighting detection unit 7 to the signal processing unit 2. Here, in the hot-wire automatic switch A2 on the floor, when the signal processing unit 2 is detected by the lighting detection unit 7 to detect lighting of the illumination load L (time t = t1), a point in time that is more than a predetermined time ( The detection value (hereinafter referred to as “first detection value”) stored in the storage unit 8 at t = t0) is stored in the temporary storage unit 2a.
[0040]
Even if the person H goes up the stairs and exits the detection area M1, the operation holding time is being counted, so the signal processing unit 2 keeps the lighting load L on with the triac Q kept on. When the person H enters the detection area M2 of the hot-wire automatic switch A2 on the floor (time t = t2), a human body detection signal is output from the heat-ray sensor 1. The signal processing unit 2 of the hot-wire automatic switch A2 temporarily uses the detection value (hereinafter referred to as “second detection value”) stored in the storage unit 8 at the time (time t = t2) when the human body detection signal is captured. The first detection value and the second detection value are compared with each other while being stored in the storage unit 2a. In this case, the difference between the first detection value and the second detection value is equal to or less than a predetermined reference value. The output of the illuminance sensor 5 is not ignored, the trigger signal is not output to the triac Q, and the operation holding time is not counted. Therefore, when the operation holding time of the downstairs hot wire automatic switch A1 has elapsed (time t = t3), the signal processing unit 2 of the downstairs hot wire automatic switch A1 turns off the triac Q and turns off the lighting load L.
[0041]
On the other hand, it is assumed that the ambient illuminance on the floor is sufficiently low (dark) due to the influence of outside light and the like. At this time, when a person H enters the detection area M1 of the down-seat hot-wire automatic switch A1 at time t = t5, a human-body detection signal is output from the hot-wire sensor 1, and the signal processing unit 2 of the hot-wire automatic switch A1 outputs a human body detection signal. , The triac Q is turned on to turn on the lighting load L, and at the same time, the operation holding time starts counting. When the illumination load L is lit, the ambient illuminance increases, the output of the illuminance sensor 5 of the hot-wire automatic switch A1 downstairs is below the threshold Vth, and when the illumination load L is lit, it flows to the current transformer CT. The current increases, and a lighting detection signal is output from the lighting detection unit 7 to the signal processing unit 2.
[0042]
Here, in the hot-wire automatic switch A2 on the floor, when the signal processing unit 2 goes back a predetermined time or more from the time point when the lighting detection unit 7 detects the lighting load L (time t = t5) ( The first detection value stored in the storage unit 8 at time t = t4) is stored in the temporary storage unit 2a. When the person H enters the detection area M2 of the hot wire automatic switch A2 on the floor (time t = t6), a human body detection signal is output from the heat ray sensor 1, and the signal processing unit 2 of the hot wire automatic switch A2 Storing the second detection value stored in the storage unit 8 at the time of capturing the human body detection signal (time t = t6) in the temporary storage unit 2a and comparing the first detection value and the second detection value; In this case, since the difference between the first detection value and the second detection value exceeds the reference value, the output of the illuminance sensor 5 is ignored, a trigger signal is output to the triac Q, and the ON state is maintained. Start counting operation holding time. Accordingly, the lighting state of the lighting load L is maintained even when the operation holding time of the down-seat hot-wire automatic switch A1 has elapsed at time t = t7. After the person H moves up the hallway on the floor and exits the detection area M2, the signal processing unit 2 of the hot-wire automatic switch A2 on the floor keeps the triac Q on while the operation holding time is being counted. The lighting state of the load L is maintained, and the signal processing unit 2 turns off the triac Q and extinguishes the lighting load L when the operation holding time of the hot wire automatic switch A2 on the floor has elapsed (time t = t8).
[0043]
As described above, in the hot-wire automatic switch A of the present embodiment, when the signal processing unit 2 detects the lighting of the lighting load L by the lighting detection unit 7, The detection result of the illuminance is compared with the detection result of the ambient illuminance after the lighting is detected, and if the difference between the ambient illuminance before and after the lighting exceeds a predetermined level (a level corresponding to the reference value), the output of the illuminance sensor 5 is obtained. Ignore and turn on / off the triac Q based only on the detection result of the heat sensor 1. If the difference in ambient illuminance before and after lighting is below a predetermined level, the output of the illuminance sensor 5 is ignored without ignoring the output. Since the triac Q is turned on / off based on the detection result, for example, when a person moves on a staircase or a corridor as described above, the destination (upstairs) No problem even if ambient illumination is sufficiently brighter human H turns off the lighting load L before finishes moving stairs and corridors, those capable of suppressing power consumption by omitting the useless illumination.
[0044]
【The invention's effect】
The invention of claim 1 is a heat ray sensor that detects heat rays, a switch element that is inserted into a power supply path from a power source to a lighting load, a current transformer that is inserted into the power supply path in series with the switch element, and an ambient illuminance. An illuminance sensor to detect, and a control means for turning on and off the switch element so as to correspond to the presence or absence of a human body based on the output of the heat ray sensor when the ambient illuminance detected by the illuminance sensor is less than or equal to a predetermined value; One end not connected to the switch element of the current transformer and external connection terminals respectively provided at both ends of the switch element, and the control means, from the leakage current of the load in the OFF state of the switch element, In the ON state of the switch element, an operating power supply is obtained from the secondary side output of the current transformer, and the switch element is turned ON / OFF based on the secondary side output. In a hot-wire automatic switch in which a switch element that has been turned on and turned off is turned off after a predetermined operation holding time has elapsed, a lighting detection means that detects lighting of a lighting load based on the magnitude of a current flowing through the current transformer The control means includes the switch so as to respond to the presence or absence of a human body based on the output of the heat ray sensor irrespective of the ambient illuminance detected by the illuminance sensor when the lighting load is detected by the lighting detection means. The element is turned on and off, and when used as a three-way switch, when the lighting load is detected by the lighting detection means, the control means is a heat ray regardless of the detection result of ambient illuminance by the illuminance sensor. For example, a person moves in one direction on a staircase or hallway because the switch element is turned on and off based only on the detection result of the sensor. In addition, the lighting load once turned on before the person finishes moving up the stairs and corridor as in the conventional example does not turn off, and the lighting load can be kept on until the person finishes moving, As a result, usability when used as a three-way switch is improved.
[0045]
According to a second aspect of the present invention, in the first aspect of the invention, the control unit includes a storage unit that stores a detection value of the illuminance sensor at a predetermined period, and the control unit detects lighting of the illumination load by the lighting detection unit. When the detected value stored in the storage unit at a time point more than a predetermined time from the time point exceeds a preset reference value, the heat ray is detected when the ambient illuminance detected by the illuminance sensor is equal to or less than the predetermined value. The switch element is turned on / off so as to correspond to the presence or absence of a human body based on the output of the sensor, and when the ambient illuminance before lighting of the lighting load exceeds a reference value, the control means is By turning on and off the switch element in consideration of the detection result of the illuminance sensor after the lighting load is turned on, it is possible to prevent the lighting load from being turned on unnecessarily and to save energy. For example, when a person moves on a staircase or corridor, even if the lighting load is off, if the surrounding illumination is sufficiently bright, there is no problem even if the lighting load is turned off before the person finishes moving on the staircase or corridor. , Can save useless lighting.
[0046]
According to a third aspect of the present invention, in the first aspect of the invention, there is provided storage means for storing the detection value of the illuminance sensor at a predetermined period, and the control means detects lighting of the illumination load by the lighting detection means. The first detection value stored in the storage unit at a time point that is a predetermined time or more than the time point is compared with the second detection value stored in the storage means after the lighting is detected, and the first detection value When the difference from the second detection value is less than or equal to a predetermined reference value, the switch is adapted to respond to the presence or absence of the human body based on the output of the heat ray sensor when the ambient illuminance detected by the illuminance sensor is less than or equal to the predetermined value. If the ambient illuminance hardly changes before and after the lighting load is turned on, the control means considers the detection result of the illuminance sensor after the lighting load is turned on and the switch element is turned on / off. Doing off Accordingly, energy saving can be achieved prevents the turning on the lighting load unnecessarily. For example, when a person moves on a staircase or corridor, even if the lighting load is off, if the surrounding illumination is sufficiently bright, there is no problem even if the lighting load is turned off before the person finishes moving on the staircase or corridor. , Can save useless lighting.
[0047]
The invention according to claim 4 is the invention according to claim 2 or 3, wherein the control means is a predetermined value of the ambient illuminance between when the lighting detection means detects the lighting load and when it is not detected. Are different values, and the predetermined value of the ambient illuminance can be set to an appropriate value according to the situation, thereby further improving usability.
[Brief description of the drawings]
FIG. 1 is a circuit block diagram of a first embodiment.
[Fig. 2] Fig. 2 is a connection state diagram when multi-location detection is performed using the above.
FIG. 3 is an operation explanatory diagram of the above.
FIG. 4 is a time chart for explaining the operation of the above.
FIG. 5 is a circuit block diagram of a second embodiment.
FIG. 6 is an operation explanatory view of the above.
FIG. 7 is a time chart for explaining the operation of the above.
FIG. 8 is a time chart for explaining the operation of the third embodiment.
FIG. 9 is a circuit block diagram of a conventional example.
FIG. 10 is a connection state diagram in the case where multi-location detection is performed using the same as above.
[Explanation of symbols]
1 Hot wire sensor
2 Signal processor
5 Illuminance sensor
7 Lighting detector
CT current transformer
Q Triac
AC commercial power
L Lighting load

Claims (4)

A heat ray sensor for detecting heat rays, a switch element inserted in a power supply path from a power source to a lighting load, a current transformer inserted in the power supply path in series with the switch element, an illuminance sensor for detecting ambient illuminance, Control means for turning on and off the switch element so as to correspond to the presence or absence of a human body based on the output of the heat ray sensor when the ambient illuminance detected by the illuminance sensor is below a predetermined value, and connected to the switch element of the current transformer One end of the switch element and external connection terminals provided at both ends of the switch element, the control means from the leakage current of the load in the OFF state of the switch element, and in the ON state of the switch element An operating power supply is obtained from the secondary side output of the current transformer, and the switch element is turned on / off based on the secondary side output. In the hot-wire automatic switch in which the switch element is turned off after a predetermined operation holding time has elapsed, the control means includes a lighting detection unit that detects lighting of the lighting load based on the magnitude of the current flowing in the current transformer. Turns on or off the switch element so as to respond to the presence or absence of the human body based on the output of the heat ray sensor regardless of the ambient illuminance detected by the illuminance sensor when the lighting load is detected by the lighting detection means. A hot-wire automatic switch, characterized by The storage unit stores the detection value of the illuminance sensor at a predetermined cycle, and the control unit stores in the storage unit at a time point more than a predetermined time than the time point when the lighting load is detected by the lighting detection unit. When the stored detection value exceeds a preset reference value, when the ambient illuminance detected by the illuminance sensor is less than or equal to a predetermined value, the presence or absence of the human body is dealt with based on the output of the heat ray sensor. 2. The hot wire automatic switch according to claim 1, wherein the switch element is turned on and off. The storage unit stores the detection value of the illuminance sensor at a predetermined cycle, and the control unit stores in the storage unit at a time point more than a predetermined time than the time point when the lighting load is detected by the lighting detection unit. The stored first detection value is compared with the second detection value stored in the storage means after the lighting is detected, and the difference between the first detection value and the second detection value is equal to or less than a predetermined reference value. In this case, when the ambient illuminance detected by the illuminance sensor is equal to or less than a predetermined value, the switch element is turned on / off based on the output of the heat ray sensor so as to correspond to the presence or absence of a human body. Item 2. A hot wire automatic switch according to item 1. 4. The control unit according to claim 2 or 3, wherein the predetermined value of the ambient illuminance is different between when the lighting detection unit detects the lighting load and when the lighting load is not detected. Hot wire type automatic switch.

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