JP4082094B2 - Lighting device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a lighting device, and more particularly to a lighting device having a germicidal lamp that emits ultraviolet rays.
[0002]
[Prior art]
As this kind of lighting device, what is disclosed in Japanese Utility Model Laid-Open No. 2-96143, that is, a sterilization lamp, its lighting device, a human body detection sensor, and an electric circuit such as a sterilization lamp are opened and closed by a human body detection signal. What is comprised with a relay and is installed in a bathroom is known. In this device, when the human body detection signal of the human body detection sensor is not input to the operation circuit of the relay, the sterilization lamp is turned on by supplying power to the lighting device by closing the relay. On the other hand, when the human body detection signal is input to the operation circuit of the relay, when the relay is opened, the power supply to the lighting device is stopped and the sterilization lamp is turned off.
[0003]
[Problems to be solved by the invention]
By the way, the human body detection sensor detects the presence of a human body by outputting a human body detection signal when a change in infrared rays emitted from the human body and incident on the human body detection sensor exceeds a certain amount within the detection range. Is common. In such a human body detection sensor, even if the human body is present in the detection range, if there is no movement, the infrared change does not exceed a certain amount, so it is determined that the human body does not exist in the detection range. Will be. Therefore, although the above-mentioned conventional example is not necessarily clear in this regard, there is a concern that there is a possibility that the human body is judged not to exist even if it exists in the detection range, and the germicidal lamp may be turned on. The
[0004]
The present invention has been made in view of such a reason, and provides an illuminating device that greatly reduces the possibility that a sterilization lamp is turned on when a human body is present within the detection range of a human body detection sensor. .
[0005]
[Means for Solving the Problems]
The invention according to claim 1 has a sterilization lamp including a lighting circuit, a general illumination lamp, and two output terminals, each of which is connected to the sterilization lamp and the general illumination lamp, and these output terminals based on a control signal. A switching device unit that determines a connection relationship between the power source and the power source, a human body detection sensor that outputs a detection signal when the presence of a human body is detected, and a control unit that outputs a control signal to the switching device unit based on the detection signal of the human body detection sensor; When the detection signal is output from the human body detection sensor, the control unit outputs the control signal and the second control signal to the switching device unit, and a predetermined time after the detection signal is not output. The output of the control signal is stopped after the elapse of time, and the output of the second control signal is stopped after the elapse of a predetermined time after the control signal is not output. The placement unit includes a first relay having an output terminal for connecting the germicidal lamp, an output terminal connected to the general illumination lamp, an input terminal, and an operation circuit for inputting the control signal, and an input terminal of the first relay. A second relay having an output terminal to be connected, an input terminal to be connected to a power source, and an operation circuit for inputting the second control signal, and the control signal is input to the operation circuit of the first relay When the second control signal is input to the operation circuit of the second relay, an output terminal to which a general illumination lamp is connected is connected to a power source via the first and second relays, and the control signal is When the second control signal is input to the second relay operation circuit without being input to the operation circuit of the first relay, the output terminal to which the sterilization lamp is connected is supplied via the first and second relays. Also connect to And characterized in that.
[0008]
The invention according to claim 2 is the illumination apparatus according to claim 1, wherein the general illumination lamp is intended lit by the lighting circuit, and germicidal lamp and the lamp rating is equivalent, is shared by both the ramp A single lighting circuit is connected to the power supply side of the switching device section.
[0009]
According to a third aspect of the present invention, in the lighting device according to the first or second aspect , a commercial power supply operates on an electric circuit in which the output terminal of the switching device unit is connected to the sterilizing lamp or the general lighting lamp. A connection portion for connecting a load is provided , and the load is any one of a ventilation fan, an infrared heater, and a fan .
[0010]
According to a fourth aspect of the present invention, in the box housing the lighting device used in the lighting device according to any one of the first to third aspects, a general illumination lamp and a sterilization lamp are respectively arranged in the vertical direction, An opening is provided in a part of the box existing in the vertical direction.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
FIG. 1 is a block diagram of the first embodiment.
[0012]
Reference numeral 1 denotes a sterilizing lamp. For example, low-pressure mercury is enclosed in a bulb and low-pressure mercury vapor discharge is used, and ultraviolet rays having a wavelength of 254 nm are mainly emitted. The sterilizing lamp 1 is lit by a lighting circuit 4 constituted by an inductor or the like. Reference numeral 2 denotes a general illumination lamp, for example, an incandescent lamp 2 using filament temperature radiation. Reference numeral 3 denotes a switching device section, which has two output terminals, a sterilization lamp connected to one of them, and a general illumination lamp connected to the other, and a switching which determines the connection relationship between these output terminals and a power source based on a control signal. It is. Specifically, a first relay 3a having two output terminals, one input terminal, and a movable contact connected to the input terminal, and a control signal is input to the operation circuit to operate the movable contact; A second relay 3b which has one output and an input terminal and a movable contact connected to the input terminal, and the movable contact is operated when the second control signal is input to the operation circuit; The output terminal of the relay 3b and the input terminal of the first relay 3a are connected. Reference numeral 7 denotes a human body detection sensor. For example, within the detection range as described above, a human body is detected when a change in infrared rays having a wavelength of about 10 μm emitted from the human body and incident on the human body detection sensor exceeds a certain amount. To do. A control unit 5 outputs a control signal when a detection signal is output from the human body detection sensor, and outputs a control signal until a predetermined time has elapsed after the detection signal is not output. The sterilizing lamp 1 and the lighting circuit 4 are connected to one output terminal of the first relay 3a, and the incandescent lamp 2 is connected to the other output terminal of the first relay. The input terminal of the first relay 3a is connected to the output terminal of the second relay. The input terminal of the second relay 3b is connected to the power source. The human body detection sensor 7 is connected to the control unit 5. Further, the control unit 5 has two output terminals, one output terminal is connected to the operation circuit of the first relay 3a, and the other output terminal is connected to the operation circuit of the second relay 3b.
Here, when a control signal is output from the control unit 5 to the operation circuit of the first relay 3a, the movable contact of the first relay 3a is closed to the output terminal to which the incandescent lamp 2 is connected. On the other hand, when the control signal is not output, the movable contact of the first relay 3a is closed to the output terminal to which the sterilizing lamp 1 is connected. In the second relay 3b, when the second control signal is output to the operation circuit of the second relay 3b, the movable contact of the second relay 3b is closed to the output terminal.
[0013]
Next, the operation of the first embodiment will be described. FIG. 2 is a flowchart for explaining the operation of the first embodiment. In the initial state when the power is supplied to this block, there is no output signal from the human body detection sensor, and no control signal is output from the control unit to the operation circuit of the second relay 3b, so the second relay 3b The movable contact is opened, and the incandescent lamp 2 and the sterilizing lamp 1 are turned off. Next, when the detection signal from the human body detection sensor is not output, the second control signal is not output from the control unit 5 to the operation circuit of the second relay 3b, so that the movable contact of the second relay 3b is opened. The incandescent lamp 2 and the sterilizing lamp 1 remain off. On the other hand, when a detection signal is output from the human body detection sensor 7, a control signal is output from the control unit 5 to the operation circuit of the first relay 3a, and the movable contact is closed to the output terminal to which the incandescent lamp 2 is connected. At the same time, the second control signal is output to the operation circuit of the second relay 3b, the movable contact of the second relay 3b is closed, and the incandescent lamp 2 is lit. When the detection signal from the human body detection sensor 7 is output after the incandescent lamp 2 is lit, an output signal is output from the control unit 5 to the operation circuit of the first relay 3a and the incandescent lamp 2 is connected. The movable contact is closed at the output terminal, and at the same time, the second control signal is output to the operation circuit of the second relay 3b, and the movable contact is kept closed, so that the incandescent lamp 2 continues to be lit. On the other hand, when the detection signal from the human body detection sensor 7 is not output, the control signal is output to the operation circuit of the first relay 3a for the set time T1 set as a predetermined time in the control unit 5. The movable contact is closed at the output terminal to which the incandescent lamp 2 is connected, the second control signal is output to the operation circuit of the second relay 3b, and the movable contact of the second relay 3b is closed. The lighting of the incandescent lamp 2 is maintained during T1. After maintaining the lighting of the incandescent lamp 2 for the set time T1, the control unit 5 stops the control signal to the operation circuit of the first relay 3a. Thereby, the movable contact of the first relay 3a is switched so as to be connected to the output terminal to which the sterilizing lamp 1 is connected, whereby the incandescent lamp 2 is turned off, and immediately thereafter, the sterilizing lamp 1 is turned on. When the detection signal from the human body detection sensor 7 is output, the control signal is output from the control unit to the operation circuit of the first relay 3a, and the incandescent lamp 2 is connected to the movable contact of the first relay 3a. Since it switches so that it may be connected to the output terminal connected, the incandescent lamp 2 turns on and the sterilization lamp 1 turns off. On the other hand, when there is no detection signal from the human body detection sensor 7, the control signal is not generated from the control unit 5, and thus the sterilization lamp 1 is kept on. And the lighting time of the germicidal lamp 1 is counted until the set time T2 set by the control unit 5, and when the set time reaches T2, the output signal from the control unit to the operation circuit of the second relay 3b is stopped. To do. As a result, the movable contact of the second relay 3b is opened, and the sterilizing lamp 1 is turned off. When the detection signal from the human body detection sensor 7 is output while the sterilizing lamp 1 is lit, a control signal is output from the control unit 5 to the first relay 3a, and the first relay 3a is movable. Since the contact is switched to be connected to the output terminal to which the incandescent lamp 2 is connected, the incandescent lamp 2 is turned on and the sterilizing lamp 1 is turned off.
[0014]
The set time T1 is assumed to be when the apparatus is used in a toilet. After the incandescent lamp 2 is lit, the human body does not move and the human body detection sensor does not output a detection signal. It was set to about 1 minute so that the sterilization lamp would not be lit in a state where it was in the detection range. The set time T2 was set to 5 minutes or longer using the sterilizing lamp 1 having a lamp rating of 6 W so that a sterilizing dose of 90 μW · min / cm ² or more capable of sterilizing E. coli was obtained.
[0015]
As described above, in the present embodiment, since the amount of change in infrared rays from the human body is small, the detection signal from the human body detection sensor 7 is not output even when the human body exists, but during the set time T1. The sterilizing lamp 1 does not light up. Further, when the human body detection signal is detected while the germicidal lamp is lit, the germicidal lamp is turned off immediately, so that the germicidal lamp 1 can be lit when the human body is in the detection range. Can be reduced.
(Second Embodiment)
FIG. 3 is a first block diagram of the second embodiment. FIG. 4 is a second block diagram of the second embodiment. In the first embodiment, the incandescent lamp 2 is used as the general illumination lamp. However, the incandescent lamp does not reach the fluorescent lamp in terms of efficiency. Therefore, in this embodiment, the fluorescent lamp 8 is employed as a general illumination lamp. Since the fluorescent lamp 8 uses low-pressure discharge, the lighting circuit 4b is required as in the case of the sterilizing lamp 1. Therefore, when the fluorescent lamp 8 is employed as a general illumination lamp, two lighting circuits, that is, the lighting circuit 4 and the lighting circuit 4b are required as shown in FIG.
[0016]
Here, a fluorescent lamp 8 having the same rating as the sterilizing lamp 1 is used as the general illumination lamp, and as shown in FIG. 4, the lighting circuit 4 is connected to the input terminal of the first relay 3a and the output terminal of the second relay 3b. Connected to. Here, when the human body detection sensor 7 outputs a detection signal, the control unit 5 outputs a control signal to the first relay 3a and outputs a second control signal to the second relay 3b. The movable contact 3a is switched to the output terminal to which the fluorescent lamp 8 is connected, the movable contact of the second relay 3b is closed, and the lighting circuit 4 is connected to the power source, so that the fluorescent lamp 8 is lit. When the human body detection sensor 7 stops outputting the detection signal after the fluorescent lamp 8 is turned on, the control unit 5 stops the control signal to the first relay 3a after a predetermined time has elapsed, and the first relay Since the movable contact 3a is switched to the output terminal to which the sterilizing lamp 1 is connected, the fluorescent lamp 8 is turned off and the sterilizing lamp 1 is connected to the lighting circuit 4 and is lit.
[0017]
As described above, when a fluorescent lamp having substantially the same lamp characteristics as that of the sterilizing lamp is used as a general lighting lamp and the configuration as shown in FIG. It is only necessary to use one circuit, and the number of parts can be reduced.
(Third embodiment)
FIG. 5 is a block diagram of the third embodiment. FIG. 6 is a flowchart for explaining the operation of the third embodiment.
[0018]
The basic configuration of the present embodiment is the same as that of the first embodiment, but third control is performed from the terminal block 21 which is a connection portion for connecting a load operated by a commercial power supply to the operation circuit from the control unit 5. A third relay 22 that outputs a signal and the movable contact is closed, and a ventilation fan 23 is added as a new component as a load operated by another commercial power source. Here, the terminal block 21 is connected to a part of an electric circuit connected to the output terminal of the first relay 3a. The terminal block 21 branches an electric circuit connected to the first relay 3 a and is connected to the ventilation fan 23 and the third relay 22. The third relay 22 is connected to the incandescent lamp 2. The first relay 3a and the second relay 3b are the same as those in the first embodiment.
[0019]
Next, the operation of the components of the circuit block will be described based on the flowchart of FIG. In the initial state when the power is supplied to this block, there is no output signal from the human body detection sensor 7, and no control signal is output from the control unit 5 to the operation circuit of the second relay 3b. The movable contact of the relay 3b is opened, the incandescent lamp 2 and the sterilizing lamp 1 are turned off, and the ventilation fan 23 is stopped. Next, when the detection signal from the human body detection sensor 7 is not output, the control signal from the control unit 5 to the operation circuit of the second relay 3b is not output, so the movable contact of the second relay 3b is The incandescent lamp 2 and the sterilizing lamp 1 are extinguished, and the ventilation fan 23 is stopped. On the other hand, when a detection signal is output from the human body detection sensor 7, a control signal is output from the control unit 5 to the operation circuit of the first relay 3a, and the movable contact is closed to the output terminal to which the ventilation fan 23 is connected. The second control signal is output to the operation circuit of the second relay 3b and the movable contact is closed. At the same time, the third control signal is also output to the operation circuit of the third relay 22 to move the movable contact. Is closed, the incandescent lamp 2 is turned on, and the ventilation fan 23 operates. When the detection signal from the human body detection sensor 7 is output after the incandescent lamp 2 is turned on and the ventilation fan 23 is operated, an output signal is output from the control unit 5 to the operation circuit of the first relay 3a. Since the second control signal is output to the operation circuit of the second relay 3b and the third control signal is also output to the operation circuit of the third relay 22 at the same time, the incandescent lamp 2 is lit and the ventilation fan 23 operates. maintain. On the other hand, when the detection signal from the human body detection sensor 7 is not output, the control signal is output from the control unit 5 to the operation circuit of the first relay 3a for the set time T1 set by the control unit 5, and the ventilation fan 23 is output. The movable contact is closed to the output terminal connected to the second relay 3b, the second control signal is output to the operation circuit of the second relay 3b, and the movable contact is closed. At the same time, the operation circuit of the third relay 22 is also connected. Since the third control signal is output and the movable contact is closed, the incandescent lamp 2 is lit and the ventilation fan 23 continues to operate. After the incandescent lamp 2 is turned on and the operation of the ventilation fan 23 is maintained for the set time T1, the third control signal to the operation circuit of the third relay 22 by the control unit 5 is stopped. The movable contact is opened and the incandescent lamp 2 is turned off. Thereafter, the control unit 5 outputs the second control signal to the operation circuit of the first relay 3a for the set time T3, and then stops the output. Thereby, the movable contact of the first relay 3a is switched to be connected to the output terminal to which the sterilizing lamp 1 is connected, the incandescent lamp 2 is turned off, and then the sterilizing lamp 1 is turned on. Here, the set time T3 was set to about 5 minutes. After that, when a detection signal from the human body detection sensor 7 is output, the control signal is output from the control unit 5 to the operation circuit of the first relay 3a, and the movable contact is an output terminal to which the incandescent lamp 2 is connected. Therefore, the sterilizing lamp 1 is turned off and the ventilation fan 23 is operated. And since the 3rd control signal is output also to the operation circuit of the 3rd relay 22 and a movable contact is closed, the incandescent lamp 2 lights. On the other hand, when there is no detection signal from the human body detection sensor 7, no control signal is generated from the control unit 5, so the movable contact of the first relay 3 a is closed to the output terminal to which the sterilizing lamp 1 is connected. Therefore, the sterilization lamp 1 is kept on. Then, the lighting time of the sterilizing lamp 1 is counted until the set time T2 set by the control unit 5. When the set time reaches T2, the control unit 5 outputs an output signal to the operation circuit of the second relay 3b. Stop. As a result, the movable contact of the second relay 3b is opened, and the sterilizing lamp 1 is turned off. When the human body detection sensor 7 detects a human body while the sterilizing lamp 1 is lit, a control signal is output from the control unit 5 to the first relay 3a, and the operation circuit of the third relay 22 is also supplied. Since the third control signal is also output, the movable contact is switched to be connected to the output terminal to which the incandescent lamp 2 is connected, and the third control signal is also output to the operation circuit of the third relay 22. Since the movable contact is closed, the incandescent lamp 2 is turned on, the ventilation fan 23 is operated, and the sterilization lamp 1 is turned off, so that the ventilation fan 23 is provided by providing the terminal block 21 at the output terminal of the first relay 3a. Such a load can be connected and can be relatively easily synchronized with the incandescent lamp 2 or partially synchronized as in the present embodiment.
Although the ventilation fan 23 is connected to the terminal block 21 in this embodiment, a load such as an infrared heater or a fan may be connected to the terminal block 21. Moreover, in the present Example, although the terminal block 21 was provided in the electrical circuit to which the incandescent lamp 2 is connected, you may connect the terminal block 21 to the electrical circuit to which the germicidal lamp 1 is connected.
(Fourth embodiment)
FIG. 7 is a side view of a state in which the box according to the fourth embodiment is cut. FIG. 7 is a front view of a state in which the box according to the fourth embodiment is cut.
[0020]
32 is an instrument main body, for example, formed by folding a metal plate such as iron or aluminum into an L-shape. Reference numeral 32 a denotes an opening provided in a part of the horizontal surface of the instrument body 32. Reference numeral 33 denotes a cover, which is made of a transparent or milky white resin material and is shaped so as to surround the instrument body. A box 34 for housing the lighting device is formed by the appliance main body 32 and the cover 33. 33a is an opening provided in a part of the horizontal surface of the cover. Here, the incandescent lamp 2 is disposed in the upper part in the vertical direction, and the sterilizing lamp 1 is disposed in the lower part in the vertical direction. And opening part 32a, 32b is provided in the above-mentioned perpendicular line direction.
[0021]
When such an instrument is used, the bulb of the incandescent lamp 2 becomes hot when the incandescent lamp 2 is lit for a certain time in the above-described operation. Since the instrument body 32 and the cover 33 have the opening 32a and the opening 33a as described above, an air flow is generated through the openings 32a and 33a by the heat of the incandescent lamp 2. Since the incandescent lamp 2 is turned off by the signal from the human body detection sensor 7 and the sterilizing lamp 1 is lit, the bulb of the incandescent lamp 2 is still heated for a certain period of time. The flow continues, and bacteria in the air can be sterilized efficiently and efficiently.
[0022]
In this embodiment, the incandescent lamp 2 is arranged at the upper part in the vertical direction and the sterilizing lamp 1 is arranged at the lower part in the vertical line direction, but the sterilizing lamp 1 is arranged at the upper part in the vertical direction and the incandescent lamp 2 is arranged vertically. The same effect can be obtained for sterilization of bacteria in the air even if they are arranged at the lower part in the linear direction. However, since the ultraviolet rays radiated from the sterilizing lamp 1 are reflected by the lower incandescent lamp 2, when it is desired to sterilize the surface of the equipment or the like in the lower surface direction, the incandescent lamp 2 is directed upward on the vertical line. It is desirable to arrange each in the downward direction on the vertical line.
[0023]
In the above embodiment, a relay is used for the switching device unit. However, a switching element such as a transistor that operates in response to a control signal from the control unit may be used. In the first embodiment, both the incandescent lamp and the sterilizing lamp are turned off after the sterilizing lamp has been turned on for a certain period of time using two relays. However, human body detection is performed using only one relay. When the detection signal of the sensor is not output, the sterilization lamp may be always turned on.
[0024]
【The invention's effect】
The invention according to claim 1 is capable of turning off both the sterilization lamp and the general illumination lamp according to the output signal of the human body detection sensor, and controlling the movable contact of each relay so that the human body detection sensor Even when it is determined that the sterilization lamp does not exist, the sterilization lamp does not light for a certain period of time, so that it is possible to greatly reduce the possibility that the sterilization lamp is lit when the human body exists within the detection range of the human body detection sensor. .
[0026]
The invention according to claim 2 can reduce the number of parts in addition to the effect of the invention according to claim 1.
[0027]
In addition to the effect of the invention according to claim 1, the invention according to claim 3 can operate a load other than the sterilization lamp or the general illumination lamp in synchronization with the sterilization lamp or the general illumination lamp.
[0028]
In addition to the effect of the invention according to any one of claims 1 to 3, the invention according to claim 4 increases the effect of air convection inside the instrument body and improves the efficiency of sterilization of bacteria present in the air. be able to.
[Brief description of the drawings]
FIG. 1 is a block diagram of a first embodiment.
FIG. 2 is a flowchart for explaining the operation of the first embodiment;
FIG. 3 is a first block diagram of a second embodiment.
FIG. 4 is a second block diagram of the second embodiment.
FIG. 5 is a block diagram of a third embodiment.
FIG. 6 is a flowchart for explaining the operation of the third embodiment;
FIG. 7 is a side view showing a state in which a box according to a fourth embodiment is cut.
FIG. 8 is a front view of a state in which a box body according to a fourth embodiment is cut.
[Explanation of symbols]
1 Sterilization lamp 2 Lamp for general lighting (incandescent lamp)
3 Switching device section 4 Lighting circuit 5 Control section 7 Human body detection sensor

Claims (4)

A sterilization lamp including a lighting circuit, a general illumination lamp, two output terminals, one of which is a sterilization lamp and the other is connected to a general illumination lamp, and based on the control signal, these output terminals are connected to the power source. A lighting device comprising: a switching device unit that determines a relationship; a human body detection sensor that outputs a detection signal when the presence of a human body is detected; and a control unit that outputs a control signal to the switching device unit according to the detection signal of the human body detection sensor In
The control unit outputs a control signal and a second control signal to the switching device unit when a detection signal is output from the human body detection sensor, and outputs the control signal after a predetermined time has elapsed after the detection signal is not output. And the output of the second control signal is stopped after a predetermined time has elapsed since the control signal is no longer output.
The switching device section includes a first relay having an output terminal for connecting a germicidal lamp, an output terminal connected to a general illumination lamp, an input terminal, and an operation circuit for inputting the control signal, and an input of the first relay A second relay having an output terminal connected to the terminal, an input terminal connected to the power source, and an operation circuit for inputting the second control signal, and the control signal is input to the operation circuit of the first relay. When the second control signal is input to the operation circuit of the second relay, an output terminal connected to a general illumination lamp is connected to a power source via the first and second relays, and the control signal Is not input to the operation circuit of the first relay and the second control signal is input to the operation circuit of the second relay, the output terminal connected to the sterilization lamp is connected via the first and second relays. To power Lighting apparatus, characterized in that to continue. The general illumination lamp is lit by a lighting circuit, and has the same lamp rating as the sterilization lamp. A single lighting circuit shared by both lamps is connected to the power supply side of the switching device section. The lighting device according to claim 1 . A connection part for connecting a load operated by a commercial power source is provided on an electric circuit formed by connecting an output terminal of the switching unit and a sterilization lamp or a general illumination lamp, and the load includes a ventilation fan, an infrared heater, and a fan. It is either , The illuminating device of Claim 1 or 2 characterized by the above-mentioned. In the box housing the lighting device, the general illumination lamp and the sterilization lamp are respectively arranged in the vertical direction, and an opening is provided in a part of the box existing in the vertical direction. Item 4. The lighting device according to any one of Items 1 to 3 .

Images