DE102016112457A1 - LIGHTING CONTROL DEVICE, LIGHTING APPARATUS AND LIGHTING BODY - Google Patents

Abstract

One task is to give the person hardly a sense of discomfort in terms of color matching. Two or more lighting circuits (20, 21) are electrically connected to two or more light sources (10, 11) and configured to set an output that is routed to each of the two or more light sources (10, 11). A control unit (22) is configured to control the two or more lighting circuits (20, 21) to adjust the output. The control unit (22) is further, when a light color of the illumination light is gradually changed between a first light color having a relatively high color temperature and a second light color having a relatively low color temperature, designed to: change the light color at a first rate of change with time, while the light color is in an area near the first light color. The control unit (22) is further configured to change the light color at a second rate of change over time while the light color is in a range near the second light color, the second rate of change being less than the first rate of change over time Time.

Description

TECHNICAL AREA

This invention relates generally to lighting control devices, lighting apparatus, and lighting fixtures, and more particularly to: a lighting control apparatus that performs dimming and color adjustment of illumination light; a lighting apparatus including the lighting control device and a light source; and a lighting fixture containing the lighting apparatus.

GENERAL PRIOR ART

As a conventional example, a lighting fixture is in JP 2015-41602 A (hereinafter referred to as "Document 1"). The lighting apparatus (lighting apparatus) described in Document 1 includes an illumination light source and a power supply unit (lighting control apparatus) that illuminates the illumination light source. The illumination light source includes three types of light emitting elements (light emitting diodes) emitting three colors of light: R, G and B, respectively. The power supply unit is configured to adjust an amount of current supplied to the three types of light emitting elements by an instruction sent from a lighting control device is received, whereby dimming and color matching of the illumination light emitted from the illumination light source is performed.

In a relatively low color temperature range (2200 [K] to 2700 [K]), the power unit gradually increases a rate of change of the color temperature as the color temperature increases. On the other hand, the power supply unit keeps the rate of change of the color temperature in a color temperature range (2700 [K] to 5000 [K]) higher than the above-mentioned range constant as the color temperature increases.

Incidentally, a lighting flux with respect to a light source such as a light emitting diode generally changes depending on a light color (a color temperature). For example, a luminous flux of a light bulb in a bulb color having a relatively low color temperature is smaller than that of a white color light emitting diode having a relatively high color temperature. In this case, when the light color is gradually changed between a high and low color temperature (color matching is performed), a change in a color temperature on the high color temperature side is hardly perceived by a person, but a change on the lower color temperature side is easily perceived. Therefore, there is a possibility that a person in an illumination room where the illumination light is emitted may feel uncomfortable in color matching.

BRIEF SUMMARY OF THE INVENTION

It is an object of the present invention to provide a lighting control apparatus, a lighting apparatus, and a lighting fixture that hardly give a person a feeling of discomfort with regard to color matching.

A lighting control apparatus of one aspect according to the present invention includes: two or more lighting circuits configured to illuminate two or more light sources that radiate light having color temperatures different from each other; and a control unit configured to control the two or more lighting circuits. The illumination control device is for performing color adjustment of illumination light including light to be emitted from the two or more light sources. The two or more lighting circuits are each electrically connected to the two or more light sources and configured to set an output that is routed to each of the two or more light sources. The control unit is designed to control the two or more lighting circuits to adjust the output. The control unit is further configured to gradually change a light color of the illumination light between a first light color having a relatively high color temperature and a second light color having a relatively low color temperature, to: change the light color at a first rate of change with time, while the light color is in a range near the first light color; and changing the light color at a second rate of change over time while the light color is in a range near the second light color, wherein the second rate of change over time is less than the first rate of change over time.

A lighting apparatus of one aspect according to the present invention includes: the lighting control device; and the two or more light sources that emit light at color temperatures that are different from each other.

A lighting fixture of one aspect according to the present invention includes: the lighting fixture; and a lighting body housing configured to receive the at least two or more light sources.

The lighting control apparatus, the lighting apparatus, and the lighting fixture of the present invention can hardly give a person a feeling of discomfort with regard to color matching.

BRIEF DESCRIPTION OF THE DRAWINGS

The figures show one or more embodiments according to the present disclosure by way of example only, and not by way of limitation. In the figures, like reference numerals refer to the same or similar elements.

1 Fig. 10 is a circuit diagram showing a lighting apparatus and a lighting control apparatus according to an embodiment;

2 Fig. 12 is an explanatory diagram of an operation of a control unit in the lighting apparatus and in the lighting control apparatus according to the embodiment; and

3A to 3C FIG. 16 is perspective views of examples of a lighting fixture according to the embodiment. FIG.

DESCRIPTION OF EMBODIMENTS

A lighting control apparatus, a lighting apparatus and a lighting fixture according to this embodiment will be described in detail with reference to the drawings. It should be noted that a configuration in this embodiment is as follows only one example of the present invention. The present invention is not limited to this embodiment as follows, and various modifications and variations according to the design and the like can be made without departing from the technical concept of the present invention.

As in 1 1, a lighting apparatus A according to this embodiment includes a light source unit 1 and a lighting control device 2 , The light source unit 1 contains a first light source 10 and a second light source 11 , The first light source 10 is designed as a series circuit in which two or more first lighting elements 100 (two in the illustrated example) are connected in series. The second light source 11 is designed as a series circuit in which two or more second lighting elements 110 (two in the illustrated example) are connected in series. The two or more first lighting elements 100 are, for example, light emitting diodes that emit light of white color (light with a color temperature of 5000 [K]). The two or more second light elements 110 are, for example, light emitting diodes that emit light in incandescent bulb color (light with a color temperature of 3000 [K]). The first and second lighting elements 100 and 110 however, may be light emitting elements, such as organic electroluminescent elements, which are not light emitting diodes. The light source unit 1 is configured to emit illuminating light to an illumination space, which contains: the light of white color from the first light source 10 ; and the light in bulb color from the second light source 11 , The light source unit 1 is configured, a light amount (a lighting flux) of the first light source 10 and a light amount (a lighting flux) of the second light source 11 at an arbitrary ratio, so that a light color of the illumination light is set in a range of 3000 [K] to 5000 [K] (a color adjustment of the illumination light is performed). It should be noted that the number of light sources of the light source unit 1 is not limited to two, but may be three or more. In addition, the light color (color temperature) of the first light source 10 and the light color (color temperature) of the second light source 11 just one example and light colors other than the white color and the bulb color can be used.

As in 1 shown, contains the lighting control device 2 a first lighting circuit 20 , a second lighting circuit 21 , a control unit 22 , a power supply 23 and the same. The first lighting circuit 20 is configured, a drive current (first drive current) through the first light source 10 to flow. The second lighting circuit 21 is configured, a drive current (second drive current) through the second light source 11 to flow.

The power supply 23 is designed to take AC power from a conventional AC source 3 is converted to direct current. For example, contains the power supply 23 an input filter 230 , a rectifier circuit 231 and a current factor improvement circuit 232 , The input filter 230 is provided as a low-pass filter and configured, for example, components having frequencies (60 [Hz] and 50 [Hz]) of a power source voltage of the AC power source 3 to allow a passage, but to block a higher harmonic component thereof. The rectifier circuit 231 is formed, for example, of a diode bridge. The current factor improvement circuit 232 is formed of a boost converter circuit. The current factor improvement circuit 232 includes a switching element Q2 such as a field effect transistor, a choke coil L2, a detection resistor R2, a diode D2, a smoothing capacitor C2, a driver circuit 2320 for switching the switching element Q2 and the like. The driver circuit 2320 is configured to detect a voltage across the detection resistor R2 and to control an ON ratio (a duty) of the switching element Q2 to keep a voltage across the smoothing capacitor C2 (ie, an output voltage) constant.

The first lighting circuit 20 is formed by a buck converter circuit. The first lighting circuit 20 includes a first switching element Q11, a first inductor L11, a first diode D11, a first capacitor C11, a first resistor R11, a first driver circuit 200 and the same. The first switching element Q11 is formed of, for example, an n-channel amplification type MOSFET (Field Effect Transistor). A series circuit formed of the first switching element Q11, the first diode D11 and the first resistor R11 is electrically connected between output terminals of the power supply 23 connected (ie, electrically connected between both ends of the smoothing capacitor C2). Also, a series circuit formed by the first inductor L11 and the first capacitor C11 is electrically connected between an anode and a cathode of the first diode D11. The first light source 10 is electrically connected between both ends of the first capacitor C11. The first driver circuit 200 is configured to control an ON ratio (one duty) of the first switching element Q11 so that a first drive current flowing through the first resistor R11 (the drive current for the first light source 10 ), can be matched with a target value. Alternatively, the first driver circuit 200 alternately switching a time period (conduction period) for performing a switching operation of the first switching element Q11 and a period of time (rest period) in which the switching operation is not performed and adjusting a relationship between the conduction period and the rest period.

The second lighting circuit 21 is formed of a buck converter circuit. The second lighting circuit 21 includes a second switching element Q12, a second inductor L12, a second diode D12, a second capacitor C12, a second resistor R12, a second driver circuit 210 and the same. The second switching element Q12 is formed of, for example, an n-channel amplification type MOSFET. A series circuit formed by the second switching element Q12, the second diode D12 and the second resistor R12 is electrically connected between the output terminals of the power supply 23 connected. Also, a series circuit formed by the second inductor L12 and the second capacitor C12 is electrically connected between an anode and a cathode of the second diode D12. The second light source 11 is electrically connected between both ends of the second capacitor C12. The second driver circuit 210 is configured to control an ON ratio (one duty) of the second switching element Q12 so that a second drive current flowing through the second resistor R12 (the drive current for the second light source 11 ), can be matched with a target value. Alternatively, the second driver circuit 210 alternately switching a time period (conduction period) for performing a switching operation of the second switching element Q12 and a period of time (rest period) in which the switching operation is not performed, and adjusting a relationship between the conduction period and the rest period.

The control unit 22 is formed of a microcontroller including a CPU (Central Processing Unit), a memory, and the like. Regarding the control unit 22 become the first and second lighting circuit 20 and 21 controlled by a program stored in the memory and executed by the CPU, and therefore, dimming and color adjustment of the illumination light are performed. The control unit 22 receives a command from a controller, for example, called a dimming / color matching device, and operates to tune a light color of the illumination light with a light color requested in the command. The dimming / color matching device (controller) includes an input device with sliding operation or rotating operation. Operating positions of the input device respectively correspond to light colors (color temperatures) of the illumination light. That is, the dimming / color matching device is for generating a command value for a corresponding light color of the illumination light based on an operating position of the input device operated by a person (an operator) and then outputting the command containing the generated command value , to the control unit 22 the lighting control device 2 designed. Alternatively, the dimming / color matching device may have a timer control function and outputting, at a preset time, a command including a command value for a corresponding light color of the illumination light to the lighting control device 2 be designed.

When the command is received from the dimming / color matching device, the control unit converts 22 the command value for the light color (eg, a target color temperature of the illumination light) included in the command, in a target value for the first drive current and a target value for the second drive current. For example, the control unit converts 22 the command value into target values with reference to a data table stored in a memory (eg, the memory of the microcontroller). That is, this data table shows a correspondence relationship between: an arbitrary color temperature within a color-matching range (3000 [K] to 5000 [K]); and a ratio between the first and second drive currents, corresponding to any color temperature (see TABLE 1). For example, if the color temperature (command value) is 3000 [K], the target value for the first drive current can be set to 0 [%] and the target value for the second drive current can be set to 100 [%]. If the color temperature (command value) is 5000 [K], the target value for the first drive current can be set to 100 [%] and the target value for the second drive current can be set to 0 [%]. If the color temperature (command value) is 4000 [K], the target values for the first and second drive currents can be set to 50 [%], respectively. If the color temperature (command value) is higher than 3000 [K] and lower than 5000 [K], the target values for the first and second drive currents can be set to greater than 0 [%] and less than 100 [%], respectively. It should be noted that when the target values for the first and second drive currents are 100 [%], the currents correspond to the rated values. The control unit 22 gives the converted target value for the first drive current to the first driver circuit 200 and outputs the converted target value for the second drive current to the second drive circuit 210 out. [TABLE 1] Light color (color temperature [K]) Target value [%] for the first drive current Target value [%] for the second drive current 5000 100.0 0 4990 99.5 0.5 4980 99.0 1.0 ... ... ... 4000 50.0 50.0 ... ... ... 3010 0.5 99.5 3000 0 100.0

The first driver circuit 200 controls the ON ratio of the first switching element Q11 so that the first drive current (output current) may be matched with the target value for the first drive current supplied by the control unit 22 Will be received. Likewise, the second driver circuit controls 210 the ON ratio of the second switching element Q12 so that the second drive current (output current) can be matched with the target value for the second drive current supplied by the control unit 22 Will be received. Thus, a color match of the illumination light from the first and second light sources 10 and 11 is emitted with the light color indicated by the command from the dimming / color matching device. The amount of light (brightness) of the illumination light is determined depending on the total value of the first and second drive currents. On the other hand, the light color (color temperature) of the illumination light is determined depending on the ratio between the first and second drive currents. Therefore, the control unit increases or decreases 22 the total value of the first and second drive currents while keeping the ratio between the first and second drive currents constant, and therefore, only the amount of light can be changed (dimming performed) while keeping the light color constant.

If the light color of the illumination light is changed here, the control unit changes 22 stepwise a target value corresponding to the light color before a change to a target value according to the light color after a change so as to gradually change the light color. For example, if a light color having a color temperature of 5000 [K] (first light color) is changed to a light color having a color temperature of 3000 [K] (second light color), the control unit decreases 22 gradually the light color with a Fade time of a few seconds (eg about 3 seconds). Even if a light color having a color temperature of 3000 [K] (second light color) is changed to a light color having a color temperature of 5000 [K] (first light color), the control unit increases 22 the light color gradually with a fade time of several seconds (eg about 3 seconds).

However, as described in "Background of the Invention", a change in the light color on the high color temperature side is hardly perceived by a person, while a change in the light color on the lower color temperature side is easily perceived. To solve this problem, the control unit changes 22 the light color at a first rate of change over time while the light color is at the high color temperature side, and at a second rate of change over time that is less than the first rate of change over time while the light color is at the lower color temperature side is. For example, by a curved line α and a curved line β in 2 is shown changes the control unit 22 the light color at the first rate of change over time while the light color is in a range near the first light color (5000 [K]). On the other hand, the control unit changes 22 the light color at the second rate of change with time that is less than the first rate of change with time, while the light color is in a range near the second light color (3000 [K]).

For example, it is assumed that in a state where the light color of the illumination light is 5000 [K], the control unit 22 receives a command to change the light color to 3500 [K] from the dimming / color matching device. In this example, 5000 [K] is the first light color, and 3500 [K] is the second light color. In this case, the control unit lowers 22 Gradually increase the target value for the first drive current from 100.0 [%] to 25.0 [%] and gradually increase the target value for the second drive current from 0 [%] to 75.0 [%]. The control unit 22 however, decreases the light color from 5000 [K] to 4100 [K] for about 0.5 [sec] and from 4100 [K] to about 3500 [K] for about 1.0 [sec] (see the curved line α in FIG 2 ). That is, the control unit 22 sets the second rate of change lower over time on the lower color temperature side (600 [K] / 1.0 [sec] = 600 [K / sec]) than the first rate of change over time on the high color temperature side (≈ 900) K] / 0.5 [sec] 1800 [K / sec]). In this example, the control unit 22 the second rate of change over time equals about one third of the first rate of change over time.

Thus, the control unit changes 22 the light color at the first rate of change over time (= 1800 [K / sec]) while the light color is in a range near the first light color (5000 [K]). On the other hand, the control unit changes 22 the light color at the second rate of change over time (= 600 [K / sec]) is smaller than the first rate of change with time, while the light color is in a range near the second light color (3500 [K]). Therefore, in a room where the illumination light is emitted, a person perceives the illumination light as changing the light color (color temperature) at approximately constant ratio, while the light color between the first light color (5000 [K]) and the second light color (3500 [K]) is. As a result, the lighting control device can 2 According to this embodiment, the person hardly gives a feeling of discomfort with regard to color matching.

On the other hand, for example, it is assumed that in a state where the light color of the illumination light is 3500 [K], the control unit 22 receives a command to change the light color to 5000 [K] from the dimming / color matching device. Also in this example, 5000 [K] corresponds to the first light color and 3500 [K] corresponds to the second light color. In this case, the control unit increases 22 gradually increase the target value for the first drive current from 25.0 [%] to 100.0 [%] and gradually reduce the target value for the second drive current from 75.0 [%] to 0 [%]. The control unit 22 however, increases the light color from 3500 [K] to 4100 [K] for about 0.6 [sec] and from 4100 [K] to 5000 [K] for about 0.7 [sec] (see the curved line β in FIG 2 ). That is, the control unit 22 Sets the second rate of change on the lower color temperature side (≈ 600 [K] / 0.6 [sec] 1000 [K / sec]) smaller over time than the first rate of change over time on the high color temperature side (≈ 900) K] / 0.7 [sec] ≈ 1285 [K / sec]). As a result, also in this case, the lighting control device 2 According to this embodiment, a person hardly conveys a feeling of discomfort with regard to color matching.

It should be noted that the first and second rates of change over time (the curved line β in FIG 2 ) in the case of an increased color temperature can be set to be slightly different from the first and second change rates over time (the curved line α in FIG 2 ) in the case of a lowered color temperature.

Examples of a lighting fixture B according to this embodiment will be explained in more detail with reference to FIG 3A to 3C described. Like in 3A is shown is a Lighting fixture B according to this embodiment is designed as a ceiling spotlight embedded and installed in a ceiling. This lighting fixture B includes: a lighting fixture housing 60 , in which the lighting apparatus A is received, the light sources (the first light source 10 and the second light source 11 ) and the lighting control device 2 contains; and a reflector 61 , The lighting housing 60 is at its upper part with prominent heat radiation fins 600 Mistake. A power supply cable 62 coming out of the lighting housing 60 leads, is electrically connected to the AC power source 3 connected.

Alternatively, the lighting fixture B according to this embodiment may be configured as one of spot lights mounted on a wiring channel 7 are connected, as in 3B and 3C shown. A lighting fixture B, which in 3B is shown, includes: a lighting housing 63 , in which the lighting apparatus A is received, the light sources (the first light source 10 and the second light source 11 ) and the lighting control device 2 contains; a reflector 64 ; a connector 65 that with the wiring channel 7 connected is; and an arm element 66 for coupling the connector 65 and the lighting housing 63 , The connector 65 and the lighting control device 2 are electrical with a power supply cable 67 connected to each other.

On the other hand, an in 3C illustrated lighting fixture B: a lighting fixture housing 68 in which the light sources (the first light source 10 and the second light source 11 ) are included; and a box 69 in which the lighting control device 2 is included. This lighting fixture B further includes: a coupling element 70 for coupling the lighting fixture housing 68 and the box 69 ; and a power cable 71 for an electrical connection of the light sources 10 and 11 to the lighting control device 2 , It should be noted that the box 69 on its upper surface with a connector 690 is provided, which is electrically and mechanically detachable with a wiring channel 7 connected is.

As apparent from the embodiment described above, a lighting control apparatus (FIG. 2 ) of a first aspect according to the present invention, two or more lighting circuits (a first lighting circuit ( 20 ) and a second lighting circuit ( 21 ), which is used to illuminate two or more light sources (a first light source ( 10 ) and a second light source ( 11 )) that emit light with color temperatures that differ from each other. The lighting control device ( 2 ) further includes a control unit ( 22 ) designed to control the two or more lighting circuits. The lighting control device ( 2 ) is for performing color matching of illumination light containing light to be emitted from the two or more light sources. The two or more lighting circuits are electrically connected to the two or more light sources and configured to set an output that is routed to each of the two or more light sources. The control unit ( 22 ) is configured to control the two or more lighting circuits to adjust the output. The control unit ( 22 ) is further configured when a light color of the illumination light is gradually changed between a first light color having a relatively high color temperature and a second light color having a relatively low color temperature, for: changing the light color at a first rate of change with time while the light color is in an area near the first light color; and changing the light color at a second rate of change over time while the light color is in a range near the second light color, wherein the second rate of change over time is less than the first rate of change over time.

Since the lighting control device ( 2 In the first aspect as above, a person in a room where the illumination light is emitted, the illumination light is such that the light color (color temperature) changes at an approximately constant ratio while the light color between the first light color and the light color changes second light color is. As a result, the lighting control device (FIG. 2 ) of the first aspect of the person hardly convey a sense of discomfort with regard to color matching.

With regard to a lighting control device ( 2 ) of a second aspect according to the present invention in the first aspect, the control unit ( 22 ) preferably, when the light color of the illumination light is gradually changed between the first light color and the second light color, designed to: increase or decrease outputs of the two or more lighting circuits (of the first lighting circuit ( 20 ) and the second lighting circuit ( 21 )) at a relatively high rate of change with time, while the light color is in the range near the first light color; and increasing or decreasing outputs of the two or more lighting circuits at a relatively low rate of change over time while the light color is in the range near the second light color.

Since the lighting control device ( 2 ) of the second aspect as above, it is possible to easily adjust the rate of change over time for the light color.

A lighting apparatus (A) of a third aspect according to the present invention includes: the lighting control apparatus (FIG. 2 ) of the first or second aspect; and the two or more light sources (the first light source ( 10 ) and the second light source ( 11 )) that emit light with color temperatures that differ from each other.

Since the lighting apparatus (A) of the third aspect is configured as above, it is possible to hardly give the person a feeling of discomfort with regard to color matching.

A lighting fixture (B) of a fourth aspect according to the present invention includes: the lighting apparatus (A) of the third aspect; and a lighting housing ( 60 . 63 . 68 ) for receiving at least the two or more light sources (the first light source ( 10 ) and the second light source ( 11 )) is designed.

Since the lighting fixture (B) of the fourth aspect is configured as above, it is possible to hardly give the person a feeling of discomfort with regard to color matching.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• JP 2015-41602 A [0002]

Claims (4)

Lighting control device ( 2 ) for performing color matching of illumination light containing light emitted from two or more light sources ( 10 . 11 ), the lighting control device ( 2 ) comprises: two or more lighting circuits ( 20 . 21 ), which are designed to hold two or more light sources ( 10 . 11 ), which emit light with color temperatures that differ from each other; and a control unit ( 22 ) used to control the two or more lighting circuits ( 20 . 21 ), the two or more lighting circuits ( 20 . 21 ) electrically to the two or more light sources ( 10 . 11 ) and configured to set an output to each of the two or more light sources ( 10 . 11 ), the control unit ( 22 ) for controlling the two or more lighting circuits ( 20 . 21 ) is configured to adjust the output, and wherein the control unit ( 22 Further, when a light color of the illumination light between a first light color having a relatively high color temperature and a second light color having a relatively low color temperature is gradually changed is designed to: change the light color at a first rate of change with time while the light color in an area near the first light color; and changing the light color at a second rate of change over time while the light color is in a range near the second light color, the second rate of change over time being less than the first rate of change over time. Lighting control device ( 2 ) according to claim 1, wherein the control unit ( 22 ), when the light color of the illumination light is gradually changed between the first light color and the second light color, is designed to: increase or decrease outputs of the two or more lighting circuits ( 20 . 21 at a relatively high rate of change with time, while the light color is in the range near the first light color; and increasing or decreasing outputs of the two or more lighting circuits ( 20 . 21 ) at a relatively low rate of change with time, while the light color is in the range near the second light color. A lighting apparatus (A) comprising: the lighting control device (10) 2 ) according to claim 1 or 2; and the two or more light sources ( 10 . 11 ) that emit light with color temperatures that differ from each other. A lighting fixture (B), comprising: the lighting apparatus (A) according to claim 3; and a lighting housing ( 60 . 63 . 68 ) for receiving at least the two or more light sources ( 10 . 11 ) is designed.

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