JP2019061842A - Illuminating device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lighting device capable of arbitrarily controlling the output of a DC power supply by a power supply unit of a power supply unit from the light source unit side. A lighting device 10 includes a power supply unit 16 and a light source unit 12. The power supply unit 16 includes a power supply unit 24 and a power supply control unit 25. The power supply unit 24 converts the external power supply into a predetermined DC power supply and outputs it. The power supply control unit 25 controls the output of the DC power supply by the power supply unit 24 based on the signal input from the signal input terminal 27c. The light source unit 12 includes a light source 30 and a light source control unit 33. The light source 30 is supplied with DC power input from the power input terminals 37a and 37b. The light source control unit 33 outputs a signal for controlling the output of the DC power supply by the power supply unit 24 from the signal output terminal 37c. [Selection diagram] Fig. 1

Description

  An embodiment of the present invention relates to a lighting device configured of a power supply unit and a light source unit.

  BACKGROUND Conventionally, there is a lighting device configured by detachably combining a power supply unit having a power supply unit and a light source unit having a light source.

  In the case of such a lighting device, even if there is a type of light source unit in which the current required for lighting the light source is different, a detection resistance corresponding to the required current is provided in series with the light source on the light source unit side. At the power supply unit side, the detection voltage is detected through the detection resistance of the light source unit, and the necessary current is supplied to the light source based on the detection voltage.

  As described above, in the lighting device, the output of the DC power to the light source unit is controlled on the side of the power supply unit only by providing the detection resistance in the light source unit.

JP, 2016-66433, A

  Problem to be solved by the invention is providing the illuminating device which can control arbitrarily the output of direct-current power supply by the power supply part of a power supply unit from the light source unit side.

  The lighting device of the embodiment includes a power supply unit and a light source unit. The power supply unit includes a power supply unit, a power supply terminal unit, and a power control unit. The power supply unit converts an external power supply into a predetermined DC power supply and outputs it. The power supply terminal unit has a power supply output terminal connected to the output side of the power supply unit, and a signal input terminal. The power supply control unit controls the output of the DC power supply by the power supply unit based on a signal input from the signal input terminal. The light source unit includes a light source terminal, a light source, and a light source controller. The light source terminal unit is detachably connected to the power supply terminal unit, and has a power supply input terminal connected to the power supply output terminal and a signal output terminal connected to the signal input terminal. The light source is supplied with DC power input from the power input terminal. The light source control unit outputs, from the signal output terminal, a signal for controlling the output of the DC power supply by the power supply unit.

  According to the present invention, it can be expected that the output of the DC power supply by the power supply unit of the power supply unit can be arbitrarily controlled from the light source unit side.

It is a schematic block diagram of a lighting installation which shows one embodiment. It is a schematic circuit diagram of a lighting installation same as the above. It is a perspective view of an illuminating device same as the above.

  Hereinafter, one embodiment will be described with reference to the drawings.

  The perspective view of the illuminating device 10 is shown in FIG. The lighting device 10 is a long straight ceiling mounted lighting device installed on a ceiling surface. The lighting device 10 includes a main body unit 11 and a light source unit 12.

  The main body unit 11 includes an instrument body 14, a terminal block 15 disposed in the instrument body 14, and a power supply unit 16. The power supply unit 16 is provided with a power supply terminal portion 17 configured by a connector at the end of the wiring drawn from the power supply unit 16.

  The light source unit 12 has a chassis 19 detachably attached to the instrument body 14 and a light transmitting cover 20 attached to the lower surface side of the chassis 19, and a light source, a circuit module and the like are provided inside. The light source unit 12 includes a light source terminal portion 21 configured by a connector of a wire drawn from the light source unit 12. The light source terminal unit 21 is detachably connected to the power supply terminal unit 17.

  Then, the power supply terminal portion 17 and the light source terminal portion 21 are connected, and the light source unit 12 is attached to the main body unit 11, whereby the lighting device 10 is assembled.

  Next, FIG. 1 shows a schematic block diagram of the illumination device 10.

  The main unit 11 includes a terminal block 15, a power supply unit 16, and the like.

  The terminal block 15 inputs an external power supply such as an AC power supply and supplies the power supply unit 16 with the power.

  The power source unit 16 converts the external power source input from the terminal block 15 into a predetermined DC power source and supplies it to the light source unit 12, the power source controller 25 for controlling the power source portion 24, and the light source unit 12 side. And a power supply terminal 17 electrically connected to the

  The power supply unit 16 is connected to three lines of a + side power supply line 26 a and a − side power supply line 26 b for outputting a DC power and a signal line 26 c for inputting a signal. Therefore, the power supply terminal unit 17 includes power supply output terminals 27a and 27b connected to the pair of power supply lines 26a and 26b, and a signal input terminal 27c connected to the signal line 26c.

  The power supply control unit 25 controls an operation of outputting DC power from the power supply unit 24 based on a signal input from the signal input terminal 27c, and performs constant current control by feedback control. Furthermore, the power supply control unit 25 stops the operation of the power supply unit 24 when the turn-off signal is input from the signal input terminal 27c, and operates the power supply unit 24 when the lighting signal is input from the signal input terminal 27c. Control to make it

  Further, the light source unit 12 converts the DC power input from the light source terminal 21 connected detachably to the power terminal 17, the light emitting modules 31 a and 31 b as the light source 30, and the power unit 16 into predetermined lighting power. Power supply conversion units 32a and 32b to supply the light emitting modules 31a and 31b, a light source control unit 33 for controlling the power supply conversion units 32a and 32b and the power supply unit 16, and externally receiving control signals such as light adjustment signals and color adjustment signals And a control power supply unit 35 for supplying control power to the light source control unit 33 and the communication unit 34.

  The light source terminal unit 21 includes a pair of power input terminals 37 a and 37 b connected to the pair of power output terminals 27 a and 27 b of the power terminal 17 and a signal output terminal 37 c connected to the signal input terminal 27 c of the power terminal 17. Have. The power supply lines 38a and 38b are connected to the power supply input terminals 37a and 37b, and the signal line 38c is connected to the signal output terminal 37c.

  The light emitting modules 31a and 31b, which are the light sources 30, include light emitting elements such as LEDs. For example, when the light emission color of one light emitting module 31a is a light bulb color and the light emission color of the other light emitting module 31b is a daylight white, the color temperature can be adjusted according to the mixing ratio of the light bulb color and the daylight white .

  The power supply conversion units 32a and 32b are configured by a DC-DC converter having a switching element or the like. The power conversion units 32a and 32b are connected between the pair of power input terminals 37a and 37b, and convert DC power input between the pair of power input terminals 37a and 37b into a predetermined lighting power (light control power) and emit light It supplies to module 31a, 31b. The light emitting modules 31a and 31b are subjected to light control by the power supply conversion units 32a and 32b, and the light source 30 as a whole is subjected to light control and toning.

  The light source control unit 33 controls the switching elements of the power conversion units 32a and 32b according to the dimming degree and toning condition set, and supplies the lighting power to the light emitting modules 31a and 31b from the power conversion units 32a and 32b. The light source control unit 33 outputs a signal (voltage signal) for controlling the output of the DC power supply by the power supply unit 24 to the signal output terminal 37c, and the DC of the electric value necessary for light adjustment and color adjustment in the light source unit 12 The power supply is controlled to be output from the power supply unit 16. Even when the control signal is input from the communication unit 34, the light source control unit 33 controls the signal output terminal 37c based on the control signal to control the signal (voltage signal) for controlling the output of the DC power supply by the power supply unit 24. It outputs and controls the output of the DC power supply by the power supply unit 24. The signal for controlling the output of the direct current power source by the power source unit 24 also includes an extinguishing signal for extinguishing the light source 30 and a lighting signal for relighting the light source 30.

  The communication unit 34 wirelessly communicates with, for example, an operation terminal such as a smart phone, receives a control signal from the operation terminal, and outputs the received control signal to the light source control unit 33. The control signal includes, in addition to a light adjustment signal for adjusting the light source 30 and a color adjustment signal for adjusting the color, an extinguishing signal for extinguishing the light source 30 and a lighting signal for relighting the light source 30.

  The control power supply unit 35 converts the DC power output from the power supply unit 16 into a predetermined control power supply and supplies the control power supply unit 33 and the communication unit 34 with the control power supply. The control power supply unit 35 includes a battery 39. When the power supply unit 24 of the power supply unit 16 that has received the light-off signal stops operating and the DC power supply is not supplied to the light source unit 12 side, the control power supply from the battery 39 is supplied to the light source control unit 33 and the communication unit 34 Do. The battery 39 may use a secondary battery. In this case, the battery 39 is charged when DC power is supplied to the light source unit 12 side.

  The light source unit 12 may use a monochromatic light source 30, or may connect the light source 30 between the power input terminals 37a and 37b without using the power conversion units 32a and 32b.

  Next, the schematic circuit diagram of the illuminating device 10 is shown in FIG.

  The power supply unit 16 has a pair of input ends of the rectifier circuit 42 connected to an AC power supply e, which is an external power supply, via the filter circuit 41. The rectifier circuit 42 rectifies the alternating current power supply e into a direct current power supply and outputs it. A capacitor C1 that smoothes the DC power supply is connected to the pair of output terminals of the rectifier circuit 42.

  A power factor improvement circuit 43 is connected to both ends of the capacitor C1. The power factor improvement circuit 43 is a step-up chopper circuit that boosts the DC power source smoothed by the capacitor C1 to improve the power factor. In the power factor correction circuit 43, a series circuit including an inductor L1 which is a step-up transformer (chopper choke) and a switching element Q1 such as a field effect transistor is connected across the capacitor C1. The anode side of a reverse current blocking diode D1 is connected to the connection point between the inductor L1 and the switching element Q1.

  A smoothing capacitor C2 such as an electrolytic capacitor is connected to the output side (the cathode side of the diode D1) of the power factor correction circuit 43.

  A step-down chopper circuit 44 is connected to both ends of the smoothing capacitor C2. The step-down chopper circuit 44 is a series circuit of a switching element Q2 and a diode D2 connected between both ends of the smoothing capacitor C2, an inductor L2 whose one end is connected to a connection point of the switching element Q2 and a cathode of the diode D2, A capacitor C3 connected in parallel with the power supply output terminals 27a and 27b is provided on the other end side of L2. A resistor R1 for detecting the current flowing to the light source 30 is connected between the anode of the diode D2 and the capacitor C3.

  The power supply terminal unit 17 is connected to the output side of the step-down chopper circuit 44. That is, the power supply output terminals 27a and 27b are connected to both ends of the capacitor C3 of the step-down chopper circuit 44.

  The power supply unit 24 is configured by the rectification circuit 42, the power factor improvement circuit 43, the step-down chopper circuit 44, and the like. The power supply unit 24 is not limited to such a configuration, and may have any configuration as long as it can variably control the current value of the output DC power supply.

  Further, the power control unit 25 of the power supply unit 16 is configured of, for example, a control IC. Power supply control unit 25 controls the switching operation of switching element Q 1 of power factor correction circuit 43 and switching element Q 2 of step-down chopper circuit 44.

  The power supply control unit 25 controls the switching operation of the switching element Q2 of the step-down chopper circuit 44 based on the signal (voltage signal) input from the signal input terminal 27c. The voltage dividing resistors R2 and R3 are connected to the signal input terminal 27c, and the connection point of these voltage dividing resistors R2 and R3 is connected to the inverting input terminal of the operational amplifier OP1 provided in the power supply control unit 25. A predetermined reference voltage is input from the reference voltage source 45 to the non-inverting input terminal of the operational amplifier OP1. A capacitor C4 is connected between the inverting input terminal and the output terminal of the operational amplifier OP1. Then, the power supply control unit 25 controls the switching operation of the switching element Q2 based on the output voltage output from the operational amplifier OP1. That is, power supply control unit 25 feedback controls the on duty or frequency for driving switching element Q 2 based on the signal (voltage signal) input from signal input terminal 27 c, and outputs the current of the DC power supply output from power supply unit 24. Constant current control.

  The power supply control unit 25 has a function of mounting detection means for detecting whether the light source unit 12 is mounted on the power supply unit 16. The cathode of the diode D3 is connected to the power supply output terminal 27a, and the voltage dividing resistors R4 and R5 are connected to the anode of the diode D3. For example, about 12 V via the resistor R6 between the anode of the diode D3 and the voltage dividing resistor R4. A constant voltage source 47 for applying a detection voltage of the above is connected, and a connection point of these voltage dividing resistors R4 and R5 is connected to the power control unit 25. Then, in the function of the mounting detection means of the power supply control unit 25, when the light source unit 12 is not mounted, no circuit is connected to the power supply output terminal 27a and it is opened. The voltage input from the connection point is higher than a predetermined reference voltage to detect attachment non-existence, while when the light source unit 12 is attached, the detection resistor R7 provided on the light source unit 12 side is connected and the circuit is closed. As a result, the voltage input from the connection point of the voltage dividing resistors R4 and R5 is lower than a predetermined reference voltage, and the presence of attachment is detected. Then, the power supply control unit 25 operates to output DC power from the power supply unit 24 when the light source unit 12 is attached or not detected, and stops the operation of the power supply unit 24 when the light source unit 12 is unmounted or not detected. Control.

  Further, FIG. 2 schematically illustrates a part of the light source unit 12. In the light source unit 12, a series circuit of a plurality of LEDs 49 as the light source 30 and a resistor Rcs is connected to the power input terminals 37a and 37b of the light source terminal portion 21. The connection point between the cathode of the LED 49 and the resistor Rcs is connected to the signal output terminal 37c. A detection resistor R7 for mounting detection is connected in parallel with the LED 49 between the power supply input terminal 37a and the signal output terminal 37c.

  Then, the light source control unit 33 controls the resistance value of the resistor Rcs in the same manner as changing the resistance value, and outputs a signal (voltage signal) for controlling the output of the DC power supply by the power supply unit 24 to the signal output terminal 37c. Control is performed to cause the power supply unit 24 to output DC power of a current value necessary for the light source unit 12.

  Next, the operation of the lighting device 10 will be described.

  Attach the main unit 11 to the installation surface such as a ceiling, connect the light source terminal 21 of the light source unit 12 to the power terminal 17 of the power supply unit 16, mount the light source unit 12 on the main unit 11, and install the lighting device 10. .

  When the external power is supplied to the power supply unit 16 and the power control unit 25 is activated, the power supply control unit 25 detects attachment / non-existence of the light source unit 12 (connection / non-connection of the detection resistor R7) before activating the power supply unit 24. . First, a detection voltage of about 12 V, for example, is applied from the constant voltage source 47 to the power output terminal 27a. At this time, when the light source unit 12 is not attached, no circuit is connected to the power output terminal 27a. Since the voltage is open, the voltage input to the power control unit 25 from the connection point of the voltage dividing resistors R4 and R5 is higher than a predetermined reference voltage, and the absence of attachment is detected. On the other hand, when the light source unit 12 is attached, the detection resistance R7 provided on the light source unit 12 side is connected and the circuit is closed, so the power supply control unit 25 is input from the connection point of the voltage dividing resistances R4 and R5. Voltage is lower than a predetermined reference voltage to detect mounting.

  The power supply control unit 25 operates the power supply unit 24 when the light source unit 12 is attached, and switches the switching element Q2 of the step-down chopper circuit 44 to output DC power from the power supply unit 24. On the other hand, when the power source control unit 25 detects that the light source unit 12 is not attached, it controls the power source unit 24 not to operate, that is, does not cause the switching element Q2 of the step-down chopper circuit 44 to perform switching operation.

  The power supply unit 24 which has started the operation converts the external power supply into a predetermined DC power supply and outputs it to the light source unit 12.

  Then, in the light source unit 12, when DC power is input from the power supply unit 16, the light source control unit 33 controls the switching elements of the power conversion units 32a and 32b according to the set dimming degree or toning condition. Lighting power is supplied from the conversion units 32a and 32b to the light emitting modules 31a and 31b to light the light emitting modules 31a and 31b.

  At this time, the light source control unit 33 causes the power supply unit to cause the power supply unit 16 to output the DC power of the necessary current value to the light source unit 12 according to the characteristics of the light source 30 and the set dimming degree or toning condition. A signal (voltage signal) for controlling the output of the DC power supply according to S.24 is output to the signal output terminal 37c.

  On the other hand, the power supply control unit 25 of the power supply unit 16 controls the operation of outputting the DC power from the power supply unit 24 based on the signal (voltage signal) input from the signal input terminal 27c. The switching operation of the element Q2 is controlled. As a result, the power supply unit 16 outputs DC power of the current value required from the light source unit 12.

  Therefore, in the light source unit 12, a DC power source having a necessary current value can be input from the power source unit 16 to turn on the light source 30 according to the characteristics of the light source 30 and the set dimming degree or toning condition.

  In addition, in the operation terminal, light adjustment operation and color adjustment operation of the light source 30 of the light source unit 12 are possible. When a control signal from the operation terminal is received by the communication unit 34 of the light source unit 12, the light source control unit 33 controls the switching elements of the power conversion units 32a and 32b according to the dimming degree or toning degree of the control signal Dimming or toning the modules 31a and 31b.

  At this time, the light source control unit 33 outputs the DC power from the power supply unit 24 so that the power supply unit 16 causes the power supply unit 16 to output the DC power of the current value necessary for the light source unit 12 according to the dimming degree or toning degree of the control signal. A signal (voltage signal) for controlling the signal is output to the signal output terminal 37c.

  Also in this case, the power supply unit 16 controls the operation of outputting the DC power from the power supply unit 24 based on the signal (voltage signal) input from the signal input terminal 27c, that is, the switching element Q2 of the step-down chopper circuit 44. Control the switching operation of As a result, the power supply unit 16 outputs DC power of the current value required from the light source unit 12.

  Therefore, the light source unit 12 can input DC power of a necessary current value from the power source unit 16 according to the dimming degree or toning condition of the control signal, and can dim or tune the light source 30.

  In addition, in the operation terminal, the light-off operation of the light source 30 of the light source unit 12 and the relighting operation from the light-off state are possible. When the communication unit 34 of the light source unit 12 receives a control signal of light off from the operation terminal, the light source control unit 33 stops the operation of the switching elements of the power conversion units 32a and 32b, and turns off the light emitting modules 31a and 31b.

  At this time, the light source control unit 33 outputs the light-off signal (light-off voltage signal) to the signal output terminal 37c.

  The power supply control unit 25 of the power supply unit 16 stops the operation of outputting the DC power from the power supply unit 24 based on the light-off signal (light-off voltage signal) input from the signal input terminal 27 c.

  When the light source 30 of the light source unit 12 is turned off, the output of the DC power from the power supply unit 16 is stopped in the light source unit 12, but the control power from the battery 39 is supplied to the light source controller 33 and the communication unit 34. Therefore, it is possible to receive and control the operation by the operation terminal.

  When the communication control unit 34 of the light source unit 12 receives a lighting control signal from the operation terminal, the light source control unit 33 outputs a lighting signal (lighting voltage signal) to the signal output terminal 37c.

  The power supply control unit 25 of the power supply unit 16 resumes the operation of outputting the DC power from the power supply unit 24 based on the lighting signal (lighting voltage signal) input from the signal input terminal 27 c, that is, switching of the step-down chopper circuit 44 The switching operation of the element Q2 is resumed. As a result, the power supply unit 16 outputs DC power of the current value required from the light source unit 12.

  Therefore, in the light source unit 12, DC power of a necessary current value is input from the power supply unit 16, and switching elements of the power conversion units 32a and 32b are selected according to the characteristics of the light source 30 and the set dimming degree or toning degree. The light emitting modules 31a and 31b are turned on again.

  As described above, according to the lighting device 10 of the present embodiment, it is possible to arbitrarily control the output of the DC power supply by the power supply unit 24 of the power supply unit 16 from the light source unit 12 side.

  Therefore, in the light source unit 12, a DC power source having a necessary current value can be input from the power source unit 16 to turn on the light source 30 according to the characteristics of the light source 30 and the set dimming degree or toning condition. .

  Moreover, by combining the light source unit 12 with, for example, the installed main unit 11, it is possible to switch the existing lighting device which can not perform light adjustment and color adjustment to the light device 10 capable of light adjustment and color adjustment.

  Further, since the light source unit 12 includes the power supply conversion units 32a and 32b, it is possible to easily cope with light control and color adjustment.

  In addition, since the light source unit 12 includes the battery 39, the light source control unit 33, the communication unit 34, etc. are operated even when the output of the DC power from the power supply unit 24 of the power supply unit 16 is stopped when the light source 30 is turned off. And the power supply unit 16 can be controlled to relight the light source 30.

  The light source unit 12 is provided with a detection unit for detecting the output voltage, and when the output voltage exceeds a predetermined constant value, the reference voltage determined by the light source control unit 33 by the power supply control unit 25 is higher than If a large voltage signal is given, the power supply unit 16 can be operated under constant voltage control with constant output voltage. In this case, when the light source unit 12 includes the power conversion units 32a and 32b, current control of the light source 30 can be facilitated.

  While certain embodiments of the present invention have been described, these embodiments have been presented by way of example only, and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, substitutions, and modifications can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and the gist of the invention, and are included in the invention described in the claims and the equivalent scope thereof.

10 Lighting system
12 light source unit
16 power supply unit
17 Power supply terminal
21 Light source terminal
24 power supply
25 Power controller
27a, 27b power output terminal
27c signal input terminal
30 light sources
32a, 32b power converter
33 Light source control unit
37a, 37b power input terminal
37c signal output terminal
39 battery

Claims (3)

A power supply unit that converts an external power supply into a predetermined DC power supply and outputs the same, a power supply output terminal connected to the output side of the power supply unit, and a power supply terminal unit having a signal input terminal, and a signal input from the signal input terminal A power supply control unit for controlling an output of the DC power supply by the power supply unit based on the power supply unit;
A light source terminal having a power input terminal connected detachably to the power terminal and connected to the power output terminal and a signal output terminal connected to the signal input terminal, and a DC power source input from the power input terminal A light source unit comprising: a light source supplied with the light source; and a light source control unit for outputting a signal for controlling an output of the DC power supply by the power supply unit from the signal output terminal;
A lighting device comprising: The lighting device according to claim 1, wherein the light source unit includes a power conversion unit that converts a DC power input from the power input terminal into a predetermined lighting power and supplies the lighting power to the light source. The lighting device according to claim 1, wherein the light source unit includes a battery that supplies control power to the light source control unit.

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