JP4026533B2 - Lighting device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a lighting device for ergonomically relaxing or falling asleep by lighting.
[0002]
[Prior art]
FIG. 10 shows a configuration diagram of a lighting device (Japanese Patent Application No. 2001-301702) separately proposed by the present applicant, and FIG. 11 shows an operation explanatory diagram of the lighting device.
[0003]
The illuminating device in FIG. 10 includes a discharge lamp DL such as a krypton bulb that can be continuously dimmed from a light-off state to 100% (rated) output, and a control unit 3X that dimmes the discharge lamp DL.
[0004]
Specifically, as shown in FIG. 11, in the introduction mode of the “introduction period”, the control unit 3X has a dimming illuminance (“facial illuminance” in the figure) with respect to the face by the discharge lamp DL in the range of φ1 to φ3. The discharge lamp DL is dimmed so as to move up and down in a sine wave form. In the relaxation mode of the “relaxation period”, the discharge lamp DL is dimmed so that the face illuminance moves up and down in a sine wave form within a range of φ2 to φ4. To do. In addition, in the transition mode of the “transition period” provided between the “introduction period” and the “relaxation period”, the control unit 3X smoothly changes the change range of the facial illuminance from φ1 to φ3 to φ2 to φ4. Thus, the discharge lamp DL is dimmed.
[0005]
Further, in the introduction period, dimming control of the discharge lamp DL is executed so that illumination light (luminance) that can adjust the respiratory rhythm according to the change in facial illuminance even in a closed eye state. In the relaxation period, dimming control of the discharge lamp DL is executed so that the illumination light is easy for a person with closed eyes to relax. Although there may be no transition period, it is desirable to provide a transition period in which the introduction period smoothly transitions to the relaxation period as shown in FIG.
[0006]
According to the illuminating device having such a configuration, when the face illuminance changes from a low state to a high state according to the face illuminance in FIG. If the breathing rhythm is adjusted by exhaling or inhaling when changing from a high state to a low state, it is possible to easily relax (or fall asleep).
[0007]
FIG. 12 shows a configuration diagram of a conventional lighting device having a plurality of fluorescent lamps FL2. This conventional illuminating device controls the lighting of a plurality of fluorescent lamps FL2 through a plurality of low-output fluorescent lamps FL2, a plurality of lighting circuit sections 2 that respectively light these, and the plurality of lighting circuit sections 2. It is comprised by the control part 3Y.
[0008]
In the lighting device having such a configuration, each lighting scene can be set by the control unit 3Y individually dimming each fluorescent lamp FL2 via each lighting circuit unit 2.
[0009]
Patent Document 1 discloses an illumination device that can awaken a sleeping person comfortably by light stimulation and does not give anxiety or discomfort.
[0010]
[Patent Document 1]
JP 2001-284065 A
[0011]
[Problems to be solved by the invention]
In the lighting apparatus shown in FIGS. 10 and 11, in order to use as the main lighting for the room, several discharge lamps DL must be used. In this case, not only the size of the lighting apparatus increases, but also the design. There is also a problem with the property, and the initial investment cost becomes high. In particular, it is difficult to reduce the running cost and save power.
[0012]
On the other hand, in the conventional lighting device shown in FIG. 12, each lighting scene can be set. However, like the lighting devices shown in FIGS. 10 and 11, the person is ergonomically relaxed or sleeps. Can not be used for.
[0013]
Also, when the configuration of the illumination device shown in FIG. 12 is added to the configuration of the illumination device shown in FIGS. 10 and 11, the dimensions of the illumination device are increased.
[0014]
The present invention has been made in view of the above circumstances, and provides an illuminating device that can ergonomically relax or fall asleep, reduce running costs, and save power. The purpose is to do.
[0015]
[Means for Solving the Problems]
The illuminating device of the invention according to claim 1 for solving the above problem is a dimming illuminance range with respect to the same symmetry plane In charge of the high-illuminance range and low-illuminance range At least two first and second fluorescent lamps, at least two first and second lighting means for lighting the first and second fluorescent lamps, respectively, and the first and second lighting means, respectively. Control means for controlling lighting of the first and second fluorescent lamps in at least the introduction mode or the relaxation mode, and the control means controls the first fluorescent lamp via the first lighting means in the introduction mode. The high-illuminance side range Light up at the lower limit illuminance and adjust the light to the upper limit illuminance. From the upper limit of illuminance Said Dimming to the lower limit illuminance turns off ,continue, The second fluorescent lamp is connected via the second lighting means. The low-illuminance side Adjust from the upper limit illuminance to the lower limit illuminance. Light and this From the minimum illumination Said Dimming to maximum illumination Control Are repeatedly executed alternately.
[0016]
According to a second aspect of the present invention, in the illumination device according to the first aspect, in the relax mode, the control means causes the second fluorescent lamp to pass through the second lighting means. On the low light side Control is performed to adjust light so that the illuminance moves up and down within the range.
[0017]
According to a third aspect of the present invention, in the lighting device according to the first or second aspect, in the introduction mode, the control means turns on the first fluorescent lamp through the first lighting means and then turns it off. Until the second fluorescent lamp is turned on via the second lighting means. On the low light side It is lit at the output of the upper limit illuminance of the range, and the combined illuminance for the same target surface by the lower limit illuminance of the first fluorescent lamp and the upper limit illuminance of the second fluorescent lamp is the upper limit for the same target surface by the second fluorescent lamp It is characterized by being higher than the illuminance.
[0018]
According to a fourth aspect of the present invention, in the illumination device according to the first or second aspect, in the introduction mode, the control means turns on the first fluorescent lamp via the first lighting means. The second fluorescent lamp is connected via the second lighting means. On the low light side While lowering the predetermined illuminance from the upper limit illuminance of the range, when the first fluorescent lamp is turned off via the first lighting means, the second fluorescent lamp is turned off via the second lighting means. On the low light side The upper limit illuminance of the range is increased, and at the time when the first fluorescent lamp is turned on, the lower limit illuminance of the first fluorescent lamp and the illuminance obtained by reducing the predetermined illuminance from the upper limit illuminance of the second fluorescent lamp The combined illuminance is equal to the upper limit illuminance for the same target surface by the second fluorescent lamp.
[0019]
According to a fifth aspect of the present invention, there is provided a lighting apparatus comprising: at least two first and second fluorescent lamps; at least two first and second lighting means for lighting the first and second fluorescent lamps; , Control means for controlling the lighting of the first and second fluorescent lamps in at least the introduction mode or the relaxation mode via the second lighting means, respectively, and the control means for the same target surface in the introduction mode. Through the first lighting means, the illuminance moves up and down within a range of illuminance obtained by subtracting the reference lower limit illuminance from the reference upper limit illuminance in the reference dimming illuminance range for the introduction mode, and within the range of zero illuminance. The first fluorescent lamp is dimmed, and control for dimming the second fluorescent lamp so that the illuminance is the reference lower limit illuminance is performed via the second lighting means.
[0020]
According to a sixth aspect of the present invention, in the illuminating device according to the fifth aspect, in the relax mode, the control unit is configured to change from a reference upper limit illuminance to a reference lower limit illuminance in a reference dimming illuminance range for the relax mode for the same target surface. The first fluorescent lamp is dimmed through the first lighting means so that the illuminance moves up and down within the range of the illuminance obtained by subtracting illuminance and zero illuminance, and through the second lighting means. Then, the second fluorescent lamp is controlled to be dimmed so that the illuminance becomes the reference lower limit illuminance for the relax mode.
[0021]
According to a seventh aspect of the present invention, there is provided an illuminating device comprising at least two first and second fluorescent lamps, at least two first and second lighting means for lighting the first and second fluorescent lamps, respectively, , Control means for controlling the lighting of the first and second fluorescent lamps in at least the introduction mode or the relaxation mode via the second lighting means, respectively, and the control means for the same target surface in the introduction mode. Illuminance obtained by subtracting the reference upper limit illuminance in the reference dimming illuminance range for the relaxation mode from the reference upper limit illuminance in the reference dimming illuminance range for the introduction mode and adding the reference lower limit illuminance, and the introduction mode The first fluorescent lamp is dimmed through the first lighting means so that the illuminance moves up and down within the range of the reference lower limit illuminance in the reference dimming illuminance range for Both through the second lighting means so that the illuminance moves up and down within the range of the illuminance obtained by subtracting the reference lower limit illuminance from the reference upper limit illuminance in the reference dimming illuminance range for the relax mode and the zero illuminance. Then, the control for dimming the second fluorescent lamp is executed.
[0022]
According to an eighth aspect of the present invention, in the illuminating device according to the seventh aspect, in the relax mode, the control means turns the first fluorescent lamp through the first lighting means on the reference dimming illuminance for the relax mode. The light intensity is adjusted so that the reference lower limit illuminance is within the range, and the illuminance rises and falls within the range of the illuminance obtained by subtracting the reference lower limit illuminance from the reference upper limit illuminance in the reference dimming illuminance range for the relax mode and the zero illuminance. Control is performed to dimm the second fluorescent lamp through the second lighting means so as to move.
[0023]
The illuminating device of the invention according to claim 9 includes at least one fluorescent lamp, at least one lighting means for lighting the fluorescent lamp, and dimming illuminance on the same target surface in the introduction mode or the relaxation mode, including turning off the light. Control means for dimming and controlling the fluorescent lamp via the lighting means so that the illuminance moves up and down in a range, and when the illuminance is lowered, the control means lowers to the lower limit illuminance of the dimming illuminance range. When the fluorescent lamp is turned off via the lighting means and the illuminance is increased, the fluorescent lamp is turned on at the lower limit illuminance of the dimming illuminance range via the lighting means to increase the illuminance. Control is executed.
[0024]
The illuminating device according to claim 10 has at least one fluorescent lamp, at least one lighting means for lighting the fluorescent lamp, and in the introduction mode or the relaxation mode, the illuminance increases and decreases within the dimming illuminance range with respect to the same target surface. Control means for dimming and controlling the fluorescent lamp via the lighting means, the control means, in the case of the introduction mode, the upper limit illuminance and the lower limit illuminance for the introduction mode for the same target surface In the range, the dimming control is performed through the lighting means so that the illuminance moves up and down, and the upper limit illuminance is the rated lighting for the same target surface by the rated lighting of the fluorescent lamp It is characterized by being higher than the illuminance.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
FIG. 1 is a diagram for explaining the operation of the lighting device according to the first embodiment of the present invention, FIG. 2 is a block diagram of the lighting device, and FIG. 3 is a block diagram of a lighting circuit section in FIG. However, in FIG. 1, the period of facial illuminance change during the introduction period is slightly shorter than the period of facial illuminance change during the relaxation period.
[0026]
As shown in FIG. 2, the lighting device according to the first embodiment lights the fluorescent lamps FL1 and FL2 in which the dimming illuminance ranges with respect to the face that is the same target surface are high and low, and these fluorescent lamps FL1 and FL2, respectively. The lighting circuit units 1 and 2 and the control unit 3 that controls the lighting of the fluorescent lamps FL1 and FL2 in the introduction mode, the transition mode, or the relaxation mode via the lighting circuit units 1 and 2, respectively, are used as lighting fixtures (not shown). I have. The fluorescent lamps FL1 and FL2 are for high output and low output, respectively.
[0027]
As shown in FIG. 3, each of the lighting circuit units 1 and 2 includes a DC power supply 10 (PFC) having a function of suppressing input current distortion and an inverter 11 that turns on its own fluorescent lamp (FL1 or FL2) at high frequency. It is configured.
[0028]
The DC power supply 10 includes a diode bridge DB that full-wave rectifies the AC voltage of the commercial AC power supply AC into a DC voltage, a choke L1 as an inductor, a switching element Q1 (in the figure, a MOS FET having a reversely connected parasitic diode), and a smoothing. The switching element Q1 is configured to be turned on / off by the control unit 3 based on the detection result of the voltage across the smoothing capacitor C1. A diode anode and a cathode are interposed in series between the drain of the switching element Q1 and the positive terminal of the smoothing capacitor C1, respectively.
[0029]
In the DC power supply 10 having the above configuration, when the switching element Q1 is turned on, an input current flows from the commercial AC power supply AC to the diode bridge DB, the choke L1, the switching element Q1, and the diode bridge DB. Thereafter, when the switching element Q1 is turned off, the input current flows from the commercial AC power supply AC to the path of the diode bridge DB, the choke L1, the smoothing capacitor C1, and the diode bridge DB, and the energy accumulated in the choke L1 is smoothed. It is discharged to the capacitor C1. By turning on / off the switching element Q1, the voltage across the smoothing capacitor C1 becomes a desired voltage due to the voltage of the commercial AC power supply AC.
[0030]
The inverter 11 includes serial switching elements Q2 and Q3 (MOS type FETs having parasitic diodes connected in reverse in the figure) connected in parallel with the smoothing capacitor C1, and one of the switching elements Q2 and Q3 (Q3 in the figure). A resonant inductor L2 connected in series between both ends of the fluorescent lamp, its own fluorescent lamp and a direct current cut capacitor C2, and a resonant capacitor C3 connected between both filaments on the non-power supply side of the fluorescent lamp. In addition, the switching elements Q2 and Q3 are turned on / off by the control unit 3.
[0031]
In the inverter 11 having the above-described configuration, when a period in which the switching element Q2 is turned on and the switching element Q3 is turned off is provided, the switching element Q2, the inductor L2, and the fluorescent lamp (capacitor C3) are switched from the smoothing capacitor C1 serving as the power source of the inverter 11. A resonance current flows through the path of the capacitor C2.
[0032]
Thereafter, when the switching element Q2 is turned off and the period during which the switching element Q3 is turned on is provided, the inductor L2 storing energy passes from the fluorescent lamp (capacitor C3), the capacitor C2, and the switching element Q3 (parasitic diode). , Regenerative current flows. When the regenerative current disappears, a resonant current flows from the capacitor C2 receiving energy from the inductor L2 to the fluorescent lamp (capacitor C3), the inductor L2, and the switching element Q3.
[0033]
Thereafter, when a period is provided in which the switching element Q2 is turned on and the switching element Q3 is turned off, the inductor L2 storing energy passes from the fluorescent lamp (capacitor C3), the capacitor C2, and the path of the parasitic diode of the switching element Q3. Regenerative current flows. When the regenerative current disappears, the regenerative current flows through the path of the inductor L2, the switching element Q2 (parasitic diode), the smoothing capacitor C1, the capacitor C2, and the fluorescent lamp (capacitor C3). Thereafter, a resonance current flows from the smoothing capacitor C1 to the path of the switching element Q2, the inductor L2, the fluorescent lamp (capacitor C3), and the capacitor C2.
[0034]
By turning on / off the switching elements Q1 and Q2, high frequency power is supplied to the fluorescent lamp.
[0035]
The control unit 3 includes, for example, a microcomputer (microcomputer), a semiconductor storage device (RAM, ROM, etc.) and a program stored in the semiconductor storage device, and outputs an illumination control signal to the lighting circuit units 1 and 2. Therefore, the switching elements Q1 to Q3 are controlled to be turned on / off in the same manner as in the prior art so as to adjust the voltage and the lamp current of the smoothing capacitor C1 by changing the switching frequency and duty. As a feature of one embodiment, as shown in FIG. 1, it has a function of controlling facial illuminance by fluorescent lamps FL1 and FL2 in order to relax a person ergonomically.
[0036]
Hereinafter, each control content of the introduction mode, the relaxation mode, and the transition mode executed by the control unit 3 will be described in detail.
[0037]
In the introduction mode of the “introduction period”, the fluorescent lamp FL1 is dimmed from the upper limit illuminance (for example, the illuminance at the rated output) of the dimming illuminance range to the lower limit illuminance via the lighting circuit unit 1 and turned off. 2 to control the fluorescent lamp FL2 from the upper limit illuminance φ6 (for example, the illuminance at the rated output) of the dimming illuminance range to the lower limit illuminance φ3. Dimming is performed from the lower limit illuminance φ3 to the upper limit illuminance φ6 of the light illuminance range, and the control for lighting the fluorescent lamp FL1 at the lower limit illuminance of the dimming illuminance range and dimming to the upper limit illuminance is repeatedly performed via the lighting circuit unit 1. The The illuminance at the rated output of the fluorescent lamp FL1 may be φ1 or higher, and the illuminance at the rated output of the fluorescent lamp FL2 may be φ6 or higher.
[0038]
Further, during the period from when the fluorescent lamp FL1 is turned on to when the fluorescent lamp FL1 is turned off via the lighting circuit section 1, the fluorescent lamp FL2 is output via the lighting circuit section 2 to the upper limit illuminance φ6 of this dimming illuminance range (light output). Control that lights up at is executed. Therefore, in the example of FIG. 1, when the fluorescent lamp FL1 is dimmed from the upper limit illuminance to the lower limit illuminance of the dimming illuminance range, the combined illuminance by the fluorescent lamps FL1 and FL2 is sinusoidal from φ1 to φ5. On the other hand, when the fluorescent lamp FL1 is dimmed from the lower limit illuminance to the upper limit illuminance in the dimming illuminance range, the combined illuminance by the fluorescent lamps FL1 and FL2 is controlled so as to increase in a sinusoidal form from φ5 to φ1. Will do.
[0039]
The combined illuminance φ5 on the face by the lower limit illuminance of the fluorescent lamp FL1 and the upper limit illuminance φ6 of the fluorescent lamp FL2 is higher than the upper limit illuminance φ6 on the face by the fluorescent lamp FL2. The lower limit illuminance of the dimming illuminance range on the face by the fluorescent lamp FL1 is, for example, φ6 between φ5 and φ6.
[0040]
By controlling the introduction mode, as shown in FIG. 1, the illuminance is lowered so that the fluorescent lamp FL1 that is lit at the upper limit illuminance at time t1 has the lower limit illuminance. At this time, the combined illuminance by the fluorescent lamps FL1 and FL2 falls in a sine wave shape from φ1 to φ5. And it falls to the lower limit illuminance of the fluorescent lamp FL1, and when the combined illuminance by this lower limit illuminance and the upper limit illuminance φ6 of the fluorescent lamp FL2 becomes φ5, the fluorescent lamp FL1 is turned off (at time t2). Thereby, the face illuminance is switched from the combined illuminance φ5 to the illuminance φ6 by the fluorescent lamp FL2. Thereafter, the illuminance is reduced to a sine wave so that the fluorescent lamp FL2 has a face illuminance of φ3.
[0041]
When the facial illuminance becomes φ3 (at time t3), the fluorescent lamp FL2 increases the illuminance in a sine wave shape so that the facial illuminance becomes φ6. When the facial illuminance reaches φ6, the fluorescent lamp FL2 maintains lighting with an output with an illuminance of φ6, while the fluorescent lamp FL1 lights with an output with a lower limit illuminance (at time t4). At this time, the combined illuminance on the face by the lower limit illuminance of the fluorescent lamp FL1 and the upper limit illuminance φ6 of the fluorescent lamp FL2 is φ5.
[0042]
After this, the illuminance is adjusted so that the fluorescent lamp FL1 has the maximum illuminance. Up Geru. At this time, the combined illuminance by the fluorescent lamps FL1 and FL2 increases in a sinusoidal shape from φ5 to φ1. When the facial illuminance becomes φ1 (at time t5), the same operation as that after time t1 is repeatedly executed.
[0043]
During such an introduction period for relaxation, the outputs of the fluorescent lamps FL1 and FL2 are controlled so that the facial illuminance required by the user is obtained.
[0044]
In the relaxation mode of the “relaxation period”, control for dimming the fluorescent lamp FL2 through the lighting circuit unit 2 so that the illuminance moves up and down within the dimming illuminance range is executed. In the example of FIG. 1, the fluorescent lamp FL2 is lit so as to change in a sinusoidal shape with the facial illuminance of φ2 to φ4 by the control in the relaxation mode.
[0045]
In the transition mode of the “transition period”, by adjusting the output of the fluorescent lamps FL1 and FL2, the range illuminance range φ1 to φ3 for the introduction mode is reduced at a constant rate, and the lower limit illuminance of the range is illuminance. Control is performed to make the transition to the face illuminance range φ2 to φ4 for the relaxation mode so as to decrease from φ3 to illuminance φ4. Further, when the upper limit illuminance in the range of facial illuminance being reduced falls within the range of facial illuminance of φ5 to φ6, the fluorescent lamp FL1 is turned off via the lighting circuit section 1 and the fluorescent lamp via the lighting circuit section 2 Control is performed to turn on FL2 with an output that provides an upper limit illuminance φ6 of the dimming illuminance range.
[0046]
By controlling the transition mode, as shown in FIG. 1, the face illuminance range of φ1 to φ3 is shifted to the face illuminance range of φ2 to φ4 while being reduced at a constant rate. At this time, both the fluorescent lamps FL1 and FL2 operate before time t6, and the fluorescent lamp FL2 operates after time t8. Further, during the period from t7 to t8, the upper limit illuminance in the range of the facial illuminance being reduced falls within the range of the facial illuminance of φ5 to φ6, so the fluorescent lamp FL1 is turned off and the fluorescent lamp FL2 is, for example, the upper limit illuminance by the rated output Lights at φ6.
[0047]
In general, in a configuration in which a fluorescent lamp is used, it is difficult to continuously increase the output of the fluorescent lamp from the extinguished state, which requires a high level of technology. According to the first embodiment, although a period in which the facial illuminance changes abruptly between φ5 and φ6 occurs, it approximates the conventional lighting control (see FIG. 11) for ergonomically relaxing or sleeping. Lighting control is possible. Thereby, if the respiratory rhythm is adjusted according to the facial illuminance in FIG. 1, it becomes possible to relax easily.
[0048]
Further, by using the high-power fluorescent lamp FL1 and the low-power fluorescent lamp FL2 whose dimming illuminance ranges with respect to the face are high and low, the fluorescent lamp can be used even in the introduction mode in which the dimming change rate is the highest. Dimming is possible. Thereby, running cost (electricity cost etc.) can be lowered and power saving can be realized.
[0049]
Further, when the present lighting device is used as the main lighting, the fluorescent lamps FL1 and FL2 can be used both for relaxation and for the main lighting. Therefore, the configuration of the lighting device shown in FIGS. The size can be reduced as compared with the case where the configuration of the illumination device shown in FIG.
[0050]
Furthermore, the minimum face illuminance can be realized by the fluorescent lamp FL2, the cost for the lighting circuit unit 2 can be reduced, and the control program of the control unit 3 can be simplified.
[0051]
In the first embodiment, the configuration in which the rated outputs of the fluorescent lamps FL1 and FL2 are different is illustrated, but the same rated output may be used.
[0052]
In addition, the configuration includes two fluorescent lamps FL1 and FL2. However, the present invention is not limited to this, and includes, for example, three fluorescent lamps each having a high, middle, and low dimming illuminance range with respect to the face. In the form, the configuration that was divided into two sections may be changed to a configuration that is divided into three sections. In this case, a sudden change in facial illuminance occurs at 2 (= 3-1) locations, but lighting control similar to the conventional lighting control is possible. In short, what is necessary is just a structure provided with at least 2 fluorescent lamps including 3 or more lamps.
[0053]
Furthermore, instead of controlling the facial illuminance in the first embodiment, when reducing the facial illuminance, the fluorescent lamps FL1 and FL2 are respectively lowered from the upper limit illuminance to the lower limit illuminance, and then the fluorescent lamp FL1 is turned off and the fluorescent lamp FL2 is turned off. When raising the upper limit illuminance and then lowering the fluorescent lamp FL2 to the lower limit illuminance and increasing the facial illuminance, the fluorescent lamp FL2 is raised from the lower limit illuminance to the upper limit illuminance, and then the fluorescent lamp FL1 is changed to the lower limit illuminance and the fluorescent lamp FL2 may be lowered to the lower limit illuminance, and then the fluorescent lamps FL1 and FL2 may be raised to the upper limit illuminance, respectively.
[0054]
(Second Embodiment)
FIG. 4 is a diagram for explaining the operation of the illumination apparatus according to the second embodiment of the present invention. However, in FIG. 4, the period of facial illuminance change during the introduction period is slightly shorter than the period of facial illuminance change during the relaxation period.
[0055]
As shown in FIG. 4, the illumination device of the second embodiment is different from the first embodiment in that the control unit 3 controls the fluorescent lamp FL1 via the lighting circuit unit 1 in the introduction mode. At the time of lighting at the lower limit illuminance of the light illuminance range (for example, illuminance between φ5 and φ6), the fluorescent lamp FL2 is lowered by a predetermined illuminance Δφ from the upper limit illuminance φ5 of the dimming illuminance range via the lighting circuit unit 2 On the other hand, when the fluorescent lamp FL1 is turned off at the lower limit illuminance of the dimming illuminance range via the lighting circuit section 1, the upper limit illuminance φ5 of the dimming illuminance range is set via the lighting circuit section 2. It is supposed to be raised to. The lower limit illuminance of the dimming illuminance range of the fluorescent lamp FL1 may be φ5 or more.
[0056]
At the time of turning on the fluorescent lamp FL1, the combined illuminance φ5 for the face with the lower limit illuminance of the fluorescent lamp FL1 and the illuminance φ6 that is a predetermined illuminance Δφ lower than the upper limit illuminance φ5 of the fluorescent lamp FL2 is the upper limit for the face with the fluorescent lamp FL2. Illuminance is equal to φ5.
[0057]
Next, the operation of the illumination device having the above configuration will be described. However, since the operation in the relaxation mode is the same as that in the first embodiment, the introduction mode and the transition mode will be described.
[0058]
In FIG. 4, at the time t1 of the introduction mode, the fluorescent lamp FL1 is turned off, while the fluorescent lamp FL2 is turned on with an output having a face illuminance of φ6. Thereafter, the illuminance is increased in a sine wave shape so that the fluorescent lamp FL2 has a rated lighting illuminance corresponding to the facial illuminance φ5.
[0059]
When the face illuminance by the fluorescent lamp FL2 becomes φ5, the fluorescent lamp FL1 is turned on at the lower limit illuminance of the dimming illuminance range, and the fluorescent lamp FL2 has an illuminance φ6 that is lower than the upper limit illuminance φ5 of the dimming illuminance range by a predetermined illuminance Δφ. Is turned on at time t2 (time t2). At this time, the combined illuminance on the face by the lower limit illuminance of the fluorescent lamp FL1 and the illuminance φ6 that is a predetermined illuminance Δφ lower than the upper limit illuminance φ5 of the fluorescent lamp FL2 is φ5. That is, the upper limit illuminance φ5 by the fluorescent lamp FL2 is shifted to the combined illuminance φ5 by the fluorescent lamps FL1 and FL2.
[0060]
Thereafter, the fluorescent lamp FL1 raises and lowers the illuminance, and again falls to the lower limit illuminance of the dimming illuminance range of the fluorescent lamp FL1, and the face by the lower illuminance and the illuminance φ6 that is lower than the upper limit illuminance φ5 of the fluorescent lamp FL2 When the combined illuminance becomes φ5, the fluorescent lamp FL1 is turned off and the fluorescent lamp FL2 is turned on (rated lighting) with the output increased to the upper limit illuminance φ5 of the dimming illuminance range. That is, the transition is made from the combined illuminance φ5 by the fluorescent lamps FL1 and FL2 to the upper limit illuminance φ5 by the fluorescent lamp FL2.
[0061]
Thereafter, the fluorescent lamp FL2 lowers the illuminance in a sine wave shape so that the face illuminance is φ3 from the rated lighting illuminance corresponding to the face illuminance φ5. When the face illuminance becomes φ3, the fluorescent lamp FL2 increases the illuminance in a sine wave shape so that the face illuminance becomes φ5. Thereafter, the same operation is repeated. The time t4 is a time when the facial illuminance becomes φ6.
[0062]
In the transition mode, the face illuminance range of φ1 to φ3 is reduced to a range of φ2 to φ4 so that the lower limit illuminance of the range decreases from the illuminance φ3 to the illuminance φ4 while being reduced at a certain rate. To do. In the period from t5 to t6, the upper limit illuminance in the range of facial illuminance being reduced falls within the range of facial illuminance of φ5 to φ6, but the fluorescent lamp FL2 is lit in the second embodiment.
[0063]
As described above, according to the second embodiment, the same effect as that of the first embodiment can be obtained, and a period in which the facial illuminance changes rapidly does not occur. Lighting control similar to lighting control is possible.
[0064]
(Third embodiment)
FIG. 5 is a diagram for explaining the operation of the illumination apparatus according to the third embodiment of the present invention. However, in the upper part of FIG. 5, the period of the facial illuminance change during the introduction period is slightly shorter than the period of the facial illuminance change during the relaxation period.
[0065]
The illumination device of the third embodiment is configured in the same manner as in FIG. 2 of the first embodiment, and the facial illuminance by the high-output fluorescent lamp FL1 and the low-output fluorescent lamp FL2 in order to relax a person ergonomically. The function of controlling is different from the first embodiment.
[0066]
That is, as shown in FIG. 5, in the introduction mode, the control unit 3 changes the reference lower limit illuminance φ3 from the reference upper limit illuminance φ1 in the reference dimming illuminance range for the introduction mode to the face (here, φ1 to φ3 in FIG. 11). In the range of the illuminance φ1 to φ3 obtained by pulling and the zero illuminance, the fluorescent lamp FL1 is dimmed through the lighting circuit unit 1 so that the illuminance moves up and down, and through the lighting circuit unit 2, Control for dimming the fluorescent lamp FL2 so that the illuminance is the reference lower limit illuminance φ3 is executed. In the figure, the illuminance is controlled to move up and down in a sinusoidal manner within the range of illuminance φ1 to φ3 and zero illuminance.
[0067]
In the case of the relax mode, the illuminance φ2 to φ4 obtained by subtracting the reference lower limit illuminance φ4 from the reference upper limit illuminance φ2 in the reference dimming illuminance range (here φ2 to φ4 in FIG. 11) for the relax mode, and zero illuminance Within the range, the fluorescent lamp FL1 is dimmed through the lighting circuit unit 1 so that the illuminance moves up and down, and the fluorescent lamp FL2 is controlled through the lighting circuit unit 2 so that the illuminance is a reference lower limit illuminance φ4 for the relaxation mode. The control for dimming is performed.
[0068]
In the transition mode, by adjusting the output of the fluorescent lamp FL1, the illuminance φ1 to φ3 for the introduction mode and the range of zero illuminance are reduced at a constant rate, while the illuminance φ2 to φ4 and zero illuminance for the relax mode are reduced. Control is performed to continuously reduce the illuminance φ3 for the introduction mode to the illuminance φ4 for the relaxation mode by making the transition to the above range and adjusting the output of the fluorescent lamp FL2.
[0069]
By controlling the fluorescent lamps FL1 and FL2 as described above, it is possible to match the facial illuminance obtained by combining the upper and lower facial illuminances in FIG. 5 with the facial illuminance in FIG. If the respiratory rhythm is adjusted accordingly, it becomes possible to relax easily. Further, by using the fluorescent lamps FL1 and FL2, the running cost can be reduced and power saving can be realized.
[0070]
(Fourth embodiment)
FIG. 6 is a diagram for explaining the operation of the illumination apparatus according to the fourth embodiment of the present invention. However, in FIG. 6, the period of facial illuminance change during the introduction period is slightly shorter than the period of facial illuminance change during the relaxation period.
[0071]
The illumination device of the fourth embodiment is configured in the same manner as in FIG. 2 of the first embodiment, and the facial illuminance by the high-output fluorescent lamp FL1 and the low-output fluorescent lamp FL2 in order to relax a person ergonomically. The function of controlling is different from the first embodiment.
[0072]
That is, as shown in FIG. 6, in the introduction mode, the control unit 3 determines the relaxation mode for the face from the reference upper limit illuminance φ1 in the reference dimming illuminance range for the introduction mode for the face (here, φ1 to φ3 in FIG. 11). Illumination φ1-φ2 + φ4 obtained by subtracting the reference upper limit illuminance φ2 in the reference dimming illuminance range (here, φ2 to φ4 in FIG. 11) and adding the reference lower limit illuminance φ4, and the reference lower limit in the reference dimming illuminance range for the introduction mode The fluorescent lamp FL1 is dimmed through the lighting circuit unit 1 so that the illuminance moves up and down within the range of the illuminance φ3, and the reference upper limit illuminance φ2 to the reference lower limit illuminance φ4 in the reference dimming illuminance range for the relaxation mode. The dimming control of the fluorescent lamp FL2 is performed via the lighting circuit unit 2 so that the illuminance moves up and down within the range of illuminance φ2 to φ4 obtained by subtracting Row. In the figure, the illuminance is controlled to move up and down in a rectangular wave shape within the range of illuminance φ1-φ2 + φ4 and illuminance φ3, while the illuminance is sinusoidal within the range of illuminance φ2-φ4 and zero illuminance. It is controlled to move up and down. The rectangular wave may be a trapezoidal wave or a triangular wave.
[0073]
In the relax mode, the fluorescent lamp FL1 is dimmed via the lighting circuit unit 1 so that the reference lower limit illuminance φ4 in the standard dimming illuminance range for the relax mode is set, and the reference in the standard dimming illuminance range for the relax mode is used. Control of dimming the fluorescent lamp FL2 via the lighting circuit unit 2 so that the illuminance moves up and down within the range of illuminance φ2 to φ4 obtained by subtracting the reference lower limit illuminance φ4 from the upper limit illuminance φ2 and zero illuminance Is executed. In the figure, the illuminance is controlled to move up and down in a sinusoidal manner within the range of illuminance φ2 to φ4 and zero illuminance.
[0074]
In the transition mode, by adjusting the output of the fluorescent lamp FL1, the lower limit illuminance of the range is reduced from illuminance φ3 to illuminance φ4 while reducing the illuminance φ1-φ2 + φ4 and illuminance φ3 for the introduction mode at a constant rate. As shown in FIG. 2, the control is executed to maintain the state in which the illuminance moves up and down within the range of the illuminance φ2 to φ4 and the zero illuminance by changing to the illuminance φ4 and adjusting the output of the fluorescent lamp FL2. .
[0075]
By controlling the fluorescent lamps FL1 and FL2 as described above, it is possible to match the facial illuminance obtained by combining the upper and lower facial illuminances of FIG. 6 with the facial illuminance of FIG. If the respiratory rhythm is adjusted accordingly, it becomes possible to relax easily. Further, by using the fluorescent lamps FL1 and FL2, the running cost can be reduced and power saving can be realized.
[0076]
(Fifth embodiment)
FIG. 7 is a configuration diagram of a lighting device according to a fifth embodiment of the present invention, and FIG. 8 is an operation explanatory diagram of the lighting device. However, in FIG. 8, the period of the facial illuminance change during the introduction period is slightly shorter than the period of the facial illuminance change during the relaxation period.
[0077]
As shown in FIG. 7, the illumination device of the fifth embodiment includes a fluorescent lamp FL, a lighting circuit unit 1A that lights the fluorescent lamp FL, and in the introduction mode, transition mode, or relaxation mode, A lighting unit (not shown) is provided with a control unit 3A that controls lighting of the fluorescent lamp FL via the lighting circuit unit 1A so that the illuminance moves up and down within the dimming illuminance range with respect to the face. Note that the lighting circuit unit 1A is configured similarly to the lighting circuit unit of the first embodiment, for example.
[0078]
The control unit 3A is configured by, for example, a microcomputer, a semiconductor memory device, a program stored in the semiconductor memory device, and the like, and functions to control on / off of each switching element of the lighting circuit unit 1A as in the first embodiment. In addition to the above, in order to relax a person ergonomically, the function of controlling the facial illuminance by the fluorescent lamp FL is provided as a difference from the first embodiment.
[0079]
That is, as shown in FIG. 8, when the illuminance is reduced to a half-wave sine wave, the control unit 3A turns on the lighting circuit unit 1A when the illuminance is lowered to the lower limit illuminance φ7 of the dimming illuminance range φ1 to φ7 (for example, t1). When the illuminance is increased in a half-wave sine wave, the fluorescent lamp FL is lit with an output that is the lower limit illuminance φ7 of the dimming illuminance range via the lighting circuit unit 1A (for example, At time t2, control for increasing the illuminance is executed.
[0080]
In the introduction mode, control for dimming the fluorescent lamp FL is performed via the lighting circuit unit 1A so that the facial illuminance moves up and down in the range of φ1 to φ7, including turning off. In the relax mode, control for dimming the fluorescent lamp FL is performed via the lighting circuit unit 1A so that the facial illuminance moves up and down within the range of φ2 to φ7 while the light is turned off. In the transition mode, the control of dimming the fluorescent lamp FL via the lighting circuit unit 1A is performed so that the range of φ1 to φ7 transitions to the range of φ2 to φ7 while being reduced at a certain rate, including turning off. Made.
[0081]
Further, the lower limit illuminance φ7 is set higher than the lower limit illuminance φ3 of the dimming illuminance range for the introduction mode and the lower limit illuminance φ4 of the dimming illuminance range for the relaxation mode in FIG.
[0082]
By controlling the fluorescent lamp FL as described above, the facial illuminance shown in FIG. 8 can be approximated to the facial illuminance shown in FIG. 11. Therefore, if the respiratory rhythm is adjusted according to the facial illuminance, the facial illuminance is easily relaxed. It becomes possible. Further, by using the fluorescent lamp FL, it is possible to reduce the running cost and achieve power saving. Furthermore, the size and thickness can be reduced, and the design can be improved.
[0083]
In the fifth embodiment, one fluorescent lamp is provided. However, there is no problem even if a plurality of fluorescent lamps are provided and the above control is performed.
[0084]
Further, when the fluorescent lamps FL1 and FL2 are provided as in the first embodiment, when the facial illuminance is lowered instead of the control of the facial illuminance in the fifth embodiment, the fluorescent lamps FL1 and FL2 are respectively changed from the upper limit illuminance to the lower limit illuminance. Then, the fluorescent lamp FL1 is turned off and the fluorescent lamp FL2 is raised to the upper limit illuminance, and then the fluorescent lamp FL2 is turned off to increase the facial illuminance. The fluorescent lamps FL1 and FL2 may be set to the lower limit illuminance, and then the fluorescent lamps FL1 and FL2 may be increased to the upper limit illuminance.
[0085]
(Sixth embodiment)
FIG. 9 is a diagram for explaining the operation of the illumination device according to the sixth embodiment of the present invention. However, in FIG. 9, the period of facial illuminance change during the introduction period is slightly shorter than the period of facial illuminance change during the relaxation period.
[0086]
The illumination device of the sixth embodiment is configured in the same manner as FIG. 7 of the fifth embodiment, and the function of controlling the facial illuminance by the fluorescent lamp FL is different from that of the fifth embodiment in order to relax a person ergonomically. is doing.
[0087]
That is, as shown in FIG. 9, in the introduction mode, the transition mode, or the relaxation mode, the control unit 3A performs fluorescence via the lighting circuit unit 1A so that the illuminance moves up and down in the dimming illuminance range φ1 to φ4 with respect to the face. Dimming control of the lamp FL.
[0088]
As a feature of the sixth embodiment, in the introduction mode, the control unit 3A is lit so that the illuminance moves up and down in a sinusoidal manner within the range of the upper limit illuminance φ1 and the lower limit illuminance φ3 for the introduction mode for the face. The fluorescent lamp FL is controlled to be dimmed through the circuit unit 1A, and the upper limit illuminance φ1 is designed to be higher than the rated lighting illuminance φ10 on the face due to the rated lighting of the fluorescent lamp FL.
[0089]
Thus, the fluorescent lamp FL is used in each of the introduction mode, the transition mode, and the relax mode by making the upper limit illuminance φ1 higher than the rated lighting illuminance φ10 on the face due to the rated lighting of the fluorescent lamp FL. Therefore, the size and thickness can be reduced, and the design can be improved.
[0090]
Further, if the respiratory rhythm is adjusted according to the facial illuminance in FIG. 9, it is possible to relax easily. Furthermore, by using the fluorescent lamp FL, the running cost can be reduced and power saving can be realized.
[0091]
【The invention's effect】
As is clear from the above, the invention according to claim 1 is provided. According to Ming, It is possible to perform lighting control for ergonomically relaxing or falling asleep, lowering running costs, and saving power.
[0092]
Claim 2 According to Ming, The person can be relaxed or fall asleep ergonomically.
[0093]
Claim 3 According to Ming, Although there is a period in which the illuminance on the same target surface changes abruptly, lighting control similar to conventional lighting control for relaxing a person ergonomically or falling asleep is possible.
[0094]
Claim 4 According to Ming, It is possible to perform suitable lighting control for relaxing a person ergonomically or falling asleep.
[0095]
Claim 5 According to Ming, It is possible to perform lighting control for ergonomically relaxing or falling asleep, lowering running costs, and saving power.
[0096]
Claim 6 According to Ming, The person can be relaxed or fall asleep ergonomically.
[0097]
Claim 7 According to Ming, It is possible to perform lighting control for ergonomically relaxing or falling asleep, lowering running costs, and saving power.
[0098]
Claim 8 According to Ming, The person can be relaxed or fall asleep ergonomically.
[0099]
Claim 9 According to Ming, It is possible to perform lighting control for ergonomically relaxing or falling asleep, lowering running costs, and saving power.
[0100]
Claim 10 According to Ming, It is possible to perform lighting control for ergonomically relaxing or falling asleep, lowering running costs, and saving power.
[Brief description of the drawings]
FIG. 1 is an operation explanatory diagram of a lighting device according to a first embodiment of the present invention.
FIG. 2 is a configuration diagram of the illumination device.
FIG. 3 is a configuration diagram of a lighting circuit unit in FIG. 2;
FIG. 4 is an operation explanatory diagram of a lighting apparatus according to a second embodiment of the present invention.
FIG. 5 is an operation explanatory diagram of a lighting apparatus according to a third embodiment of the present invention.
FIG. 6 is an operation explanatory diagram of a lighting device according to a fourth embodiment of the present invention.
FIG. 7 is a configuration diagram of a lighting apparatus according to a fifth embodiment of the present invention.
FIG. 8 is an operation explanatory diagram of the illumination device.
FIG. 9 is an operation explanatory diagram of a lighting apparatus according to a sixth embodiment of the present invention.
FIG. 10 is a block diagram of a lighting device proposed separately by the present applicant.
FIG. 11 is an operation explanatory diagram of the illumination device.
FIG. 12 is a configuration diagram of a conventional illumination device having a plurality of fluorescent lamps.
[Explanation of symbols]
FL1, FL2, FL Fluorescent lamp
1,2,1A lighting circuit
3,3A control unit

Claims (10)

At least two first and second fluorescent lamps each responsible for a high-illuminance side range and a low-illuminance side range in a dimming illuminance range with respect to the same symmetry plane;
At least two first and second lighting means for respectively lighting the first and second fluorescent lamps;
Control means for controlling the lighting of the first and second fluorescent lamps in at least the introduction mode or the relaxation mode through the first and second lighting means,
In the case of the introduction mode, the control means
Through the first lighting unit, the first fluorescent lamp, in the range of the high illuminance side, dimmed to limit illumination lit at lower intensity, and dimming the lower illuminance from the upper limit luminance of this Turn off ,
Subsequently, through the second lighting means, the second fluorescent lamp, wherein a low illuminance side dimmed to lower illuminance from the upper limit illuminance range and dimming the upper illumination from the lower illuminance
An illumination device characterized by executing control alternately and repeatedly. In the relax mode, the control means performs control for dimming the second fluorescent lamp so that the illuminance moves up and down within the range on the low illuminance side via the second lighting means. The lighting device according to claim 1. In the case of the introduction mode,
The control means is configured to turn the second fluorescent lamp on the low illuminance side through the second lighting means during a period from when the first fluorescent lamp is turned on through the first lighting means to when it is turned off . Lights at the output of the upper limit illumination of the range,
The combined illuminance on the same target surface by the lower limit illuminance of the first fluorescent lamp and the upper limit illuminance of the second fluorescent lamp is higher than the upper limit illuminance on the same target surface by the second fluorescent lamp. The lighting device according to claim 1 or 2. In the case of the introduction mode,
When the first fluorescent lamp is turned on via the first lighting means, the control means moves the second fluorescent lamp from the upper limit illuminance in the low illuminance side range via the second lighting means. While lowering the predetermined illuminance, when the first fluorescent lamp is turned off via the first lighting means, the second fluorescent lamp is set to the upper limit illuminance in the range on the low illuminance side via the second lighting means. Raise
At the time of turning on the first fluorescent lamp, the combined illuminance with respect to the same target surface by the lower limit illuminance of the first fluorescent lamp and the illuminance obtained by reducing the predetermined illuminance from the upper limit illuminance of the second fluorescent lamp is the second illuminance. The illumination device according to claim 1, wherein the illumination device is equal to an upper limit illuminance with respect to the same target surface by a fluorescent lamp. At least two first and second fluorescent lamps;
At least two first and second lighting means for respectively lighting the first and second fluorescent lamps;
Control means for controlling the lighting of the first and second fluorescent lamps in at least the introduction mode or the relaxation mode through the first and second lighting means,
In the introduction mode, the control means has an illuminance within a range of zero illuminance and illuminance obtained by subtracting the reference lower limit illuminance from the reference upper limit illuminance in the reference dimming illuminance range for the introduction mode for the same target surface. The first fluorescent lamp is dimmed through the first lighting means so as to move up and down, and the illuminance of the second fluorescent lamp is adjusted to the reference lower limit illuminance through the second lighting means. An illuminating device that performs dimming control. In the relax mode, the control means has an illuminance within a range of an illuminance obtained by subtracting a reference lower limit illuminance from a reference upper limit illuminance in the reference dimming illuminance range for the relax mode for the same target surface, and zero illuminance. The first fluorescent lamp is dimmed through the first lighting means, and the second fluorescent lamp has an illuminance lower than the reference lower limit for the relaxation mode through the second lighting means. 6. The lighting device according to claim 5, wherein control for dimming so as to achieve illuminance is executed. At least two first and second fluorescent lamps;
At least two first and second lighting means for respectively lighting the first and second fluorescent lamps;
Control means for controlling the lighting of the first and second fluorescent lamps in at least the introduction mode or the relaxation mode through the first and second lighting means,
In the introduction mode, the control means subtracts the reference upper limit illuminance in the reference dimming illuminance range for the relaxation mode from the reference upper limit illuminance range in the reference dimming illuminance range for the same target surface from the reference upper limit illuminance range in the reference mode. The first lighting means through the first lighting means so that the illuminance moves up and down within the range of the illuminance obtained by adding the reference lower limit illuminance and the reference lower limit illuminance in the reference dimming illuminance range for the introduction mode. While dimming the fluorescent lamp, the illuminance moves up and down within the range of illuminance obtained by subtracting the reference lower limit illuminance from the reference upper limit illuminance in the reference dimming illuminance range for the relax mode, and zero illuminance. An illuminating apparatus that performs control of dimming the second fluorescent lamp via a second lighting unit. In the relax mode, the control means dimmes the first fluorescent lamp through the first lighting means so as to have a reference lower limit illuminance in a reference dimming illuminance range for the relax mode, and the relax mode The second fluorescent light is transmitted through the second lighting means so that the illuminance moves up and down within the range of the illuminance obtained by subtracting the reference lower limit illuminance from the reference upper limit illuminance in the reference dimming illuminance range for use. 8. The lighting device according to claim 7, wherein control for dimming the lamp is executed. At least one fluorescent lamp,
At least one lighting means for lighting the fluorescent lamp;
In the case of the introduction mode or the relaxation mode, the lighting unit includes a control unit that performs dimming control of the fluorescent lamp so that the illuminance moves up and down within the dimming illuminance range with respect to the same target surface, including turning off,
When the illuminance is lowered, the control means turns off the fluorescent lamp via the lighting means when the illuminance is lowered to the lower limit illuminance of the dimming illuminance range. The lighting device is characterized in that the fluorescent lamp is turned on at the lower limit illuminance of the dimming illuminance range and the illuminance is increased. At least one fluorescent lamp,
At least one lighting means for lighting the fluorescent lamp;
In the case of the introduction mode or the relaxation mode, a control unit that performs dimming control of the fluorescent lamp through the lighting unit so that the illuminance moves up and down within the dimming illuminance range with respect to the same target surface,
In the introduction mode, the control means dimmes the fluorescent lamp through the lighting means so that the illuminance moves up and down within the range of the upper limit illuminance and the lower limit illuminance for the introduction mode with respect to the same target surface. Execute the control to
The upper limit illuminance is higher than a rated lighting illuminance for the same target surface by rated lighting of the fluorescent lamp.

Images