JP2017208179A - Lighting device and lighting apparatus - Google Patents

Abstract

An object of the present invention is to suppress the complexity and size of a circuit configuration while using a high-performance storage battery. A lighting device includes a storage battery, a charging unit (charge / discharge unit) for charging the storage battery, a discharge unit (charge / discharge unit) for controlling a current discharged from the storage battery to a light source. Is provided. The lighting device 1 controls a charging unit (charge / discharge unit 12) to protect the storage battery 10 from overcharging, and a first protection unit (charge / discharge unit 12) and a discharge unit (charge / discharge unit 12) to control the storage battery. The control unit 14 includes a second protection unit (charge / discharge unit 12) that protects the power supply 10 from overdischarge. The control unit 14 operates at least two or more circuit units out of the plurality of circuit units including the charging unit, the discharging unit, the first protection unit, and the second protection unit (supply the operation power). [Selection diagram] Fig. 1

Description

  The present invention relates to a lighting device and a lighting fixture, and more particularly to a lighting device that lights a light source using a battery as a power source, and a lighting fixture including the lighting device.

  Conventionally, a lighting device that lights a light source using a storage battery (secondary battery) as a power source and a lighting fixture including the lighting device have been provided (see, for example, Patent Document 1). The luminaire described in Patent Literature 1 includes a light source unit, a battery including a storage battery, a power supply circuit unit that charges the battery and turns on the light source unit with power supplied from the battery, and the light source unit, the battery, and the power supply circuit. And a housing for storing the part.

JP 2012-160326 A

  By the way, when using a highly functional storage battery such as a nickel-hydrogen storage battery or a lithium secondary battery as the storage battery, it is necessary to protect the storage battery from overcharge and overdischarge. However, in the configuration of the conventional example described in Patent Document 1, there is a possibility that the circuit configuration of the power supply circuit unit is complicated and enlarged by adding a protection circuit or the like that protects the storage battery.

  The objective of this invention is providing the lighting device and lighting fixture which can aim at the suppression of complication of a circuit structure and enlargement, using a highly functional storage battery.

  A lighting device according to an aspect of the present invention includes a storage battery, a charging unit that charges the storage battery, and a discharge unit that controls a current discharged from the storage battery to a light source. The lighting device includes a first protection unit that controls the charging unit to protect the storage battery from overcharge; a second protection unit that controls the discharge unit to protect the storage battery from overdischarge; A part. The control unit operates at least two or more circuit units among a plurality of circuit units including the charging unit, the discharging unit, the first protection unit, and the second protection unit.

  The lighting fixture which concerns on 1 aspect of this invention is equipped with the lighting device, the light source made to light by the said lighting device, and the fixture main body holding the said lighting device and the said light source.

  The lighting device and the lighting fixture of the present invention have an effect that the circuit configuration can be complicated and suppressed in size while using a high-performance storage battery.

FIG. 1 is a circuit configuration diagram of a lighting device according to an embodiment of the present invention. FIG. 2 is a perspective view of a lighting fixture according to an embodiment of the present invention.

  Hereinafter, with reference to drawings, lighting device 1 and lighting fixture 2 concerning one embodiment of the present invention are explained. However, the configuration described in the following embodiments is merely an example of the present invention. The present invention is not limited to the following embodiments, and various modifications can be made according to design and the like as long as the effects of the present invention can be achieved.

  As illustrated in FIG. 1, the lighting device 1 according to the present embodiment (hereinafter, abbreviated as the lighting device 1) includes a storage battery 10, an input power supply unit 11, a charge / discharge unit 12, an output power supply unit 13, and a control unit 14. Yes. Moreover, it is preferable that the lighting device 1 includes a pair of input terminals T11 and T12 and a pair of output terminals T21 and T22.

  The AC power supply 4 is electrically connected to the pair of input terminals T11 and T12. The light source 3 is electrically connected to the pair of output terminals T21 and T22. The light source 3 may be a package type light emitting diode or a COB (Chip On Base) type light emitting diode. Further, the light source 3 may be an LED module in which a plurality of light emitting diodes are mounted on a substrate. However, the light source 3 is not limited to the light emitting diode and the LED module, and may be a solid light source such as organic electroluminescence.

  The storage battery 10 is a lithium secondary battery that is a highly functional storage battery compared to a nickel-cadmium storage battery or the like. However, the storage battery 10 is not limited to a lithium secondary battery, and may be a nickel-hydrogen storage battery, for example.

  The input power supply unit 11 includes a rectifier circuit 110 formed of a diode bridge and a step-down chopper circuit 111. The rectifier circuit 110 performs full-wave rectification on the AC voltage V1 supplied from the AC power supply 4 via the pair of input terminals T11 and T12. The step-down chopper circuit 111 converts the pulsating voltage V2 output from the rectifying circuit 110 into a DC voltage V3 (for example, V3 = 12 [V]) lower than the effective value (for example, 100 [V]) of the pulsating voltage V2. Step down.

  The output power supply unit 13 is a step-up chopper circuit, and includes a switching element Q1, an inductor L1, a diode D2, a capacitor C1, a detection resistor R1, and a drive circuit 130. The first end of the inductor L1 is electrically connected to the output terminal on the high potential side of the input power supply unit 11 via the backflow prevention diode D1. The switching element Q1 is, for example, an N-channel enhancement type MOSFET (Metal Oxide Semiconductor Field Effect Transistor). However, the switching element Q1 is not limited to a MOSFET, and may be a semiconductor switching element other than a MOSFET such as a bipolar transistor. The drain of the switching element Q1 is electrically connected to the second end of the inductor L1. The source of the switching element Q <b> 1 is electrically connected to the output terminal on the low potential side of the input power supply unit 11. The anode of the diode D2 is electrically connected to the second end of the inductor L1 and the drain of the switching element Q1. The cathode of the diode D2 is electrically connected to the first end of the capacitor C1 and the output terminal T21. The second end of the capacitor C1 is electrically connected to the first end of the detection resistor R1 and the output terminal T22. The second end of the detection resistor R1 is electrically connected to the output terminal on the low potential side of the input power supply unit 11 and the source of the switching element Q1. The drive circuit 130 drives (switches) the switching element Q1 by applying a drive signal composed of a square wave voltage having a constant period to the gate of the switching element Q1. The output power supply unit 13 boosts the DC voltage V3 output from the input power supply unit 11 or the DC voltage supplied from the storage battery 10 to a higher voltage (for example, 20 to 40 [V]), and the boosted DC voltage (Output voltage V4) is applied to the light source 3 through a pair of output terminals T21 and T22. The light source 3 emits light (lights up) by a direct current (output current I1) supplied from the output power supply unit 13 through a pair of output terminals T21 and T22. Here, the output power supply unit 13 detects the current value of the output current I1 by the detection resistor R1. The drive circuit 130 increases or decreases the duty ratio of the drive signal in order to make the current value of the output current I1 detected by the detection resistor R1 coincide with the target value. However, when the rated voltage of the light source 3 is equal to or less than the DC voltage V3, the output power supply unit 13 is preferably configured as a step-down chopper circuit instead of a step-up chopper circuit.

  The charging / discharging unit 12 charges the storage battery 10 when the DC voltage V3 is output from the input power supply unit 11, and discharges the storage battery 10 when the DC voltage V3 is not output from the input power supply unit 11. A discharge operation is selectively performed. The charging / discharging unit 12 when performing the charging operation makes the charging current I2 flowing through the storage battery 10 through the diode D1 constant, and stops the charging current I2 when the voltage (charging voltage) of the storage battery 10 reaches the upper limit value. Thus, the storage battery 10 is protected from overcharging. The charging / discharging unit 12 when performing the discharging operation supplies the discharge current I3 discharged from the storage battery 10 to the output power supply unit 13, and stops discharging when the charging voltage of the storage battery 10 reaches the lower limit value. 10 is protected from overdischarge. Furthermore, the charging / discharging unit 12 protects the storage battery 10 by stopping the charging operation and the discharging operation when the temperature of the storage battery 10 exceeds a threshold during the execution of the charging operation and the discharging operation. That is, in the lighting device 1 according to the present embodiment, the charging / discharging unit 12 corresponds to a charging unit, a discharging unit, a first protection unit, and a second protection unit. Such a charging / discharging unit 12 is preferably realized by an integrated circuit configured to control charging / discharging of the lithium secondary battery (for example, model number: LTC4085 of Linear Technology). However, the charging unit, the discharging unit, the first protection unit, and the second protection unit do not necessarily need to be configured by one circuit unit (charging / discharging unit 12). The charging unit, the discharging unit, the first protection unit, and the second protection unit Each of the two protection units may be configured by an independent circuit unit.

  The control unit 14 includes a microcontroller (hereinafter abbreviated as a microcomputer) 140, a control power supply circuit 141, and an operation input unit 142. The operation input unit 142 includes an input device such as a push button switch or a touch sensor. The operation input unit 142 converts an operation input received by operating the input device into an electric signal (operation signal) and outputs the electric signal to the microcomputer 140. The microcomputer 140 controls the output power supply unit 13 (the drive circuit 130 thereof) according to the operation signal received from the operation input unit 142. For example, when an operation signal instructing turning off is received from the operation input unit 142, the microcomputer 140 stops the output power supply unit 13 (the drive circuit 130 thereof) and turns off the light source 3. However, when the output power supply unit 13 is fed from the storage battery 10 and the light source 3 is lit, the microcomputer 140 also includes the charge / discharge unit 12 (discharge operation thereof) in addition to the output power supply unit 13 (drive circuit 130 thereof). Stop. When receiving an operation signal for instructing lighting from the operation input unit 142, the microcomputer 140 operates the output power supply unit 13 (the drive circuit 130 thereof) to light the light source 3. When the pair of input terminals T11 and T12 are not electrically connected to the AC power supply 4, the microcomputer 140 not only operates the output power supply unit 13 (the drive circuit 130 thereof) but also discharges the charge / discharge unit 12. Let it run. Further, when the operation signal instructing the dimming level is received from the operation input unit 142, the microcomputer 140 drives the output power supply unit 13 with the target value of the output current I1 corresponding to the dimming level instructed by the operation signal. This is applied to the circuit 130. The drive circuit 130 adjusts the duty ratio of the drive signal and matches the current value of the output current I1 with the target value given from the microcomputer 140, thereby dimming the light source 3.

  The control power supply circuit 141 is configured by a three-terminal regulator or the like. The control power supply circuit 141 generates a constant control power supply voltage Vcc from the pulsating voltage V2. Further, when the pulsating voltage V2 is not output from the rectifier circuit 110, the control power supply circuit 141 generates the control power supply voltage Vcc from the DC voltage supplied from the storage battery 10 via the diode D3. The control power supply circuit 141 supplies the generated control power supply voltage Vcc to the microcomputer 140, the step-down chopper circuit 111 of the input power supply unit 11, the charge / discharge unit 12, and the drive circuit 130 of the output power supply unit 13. That is, the microcomputer 140, the step-down chopper circuit 111 of the input power supply unit 11, the charge / discharge unit 12, and the drive circuit 130 of the output power supply unit 13 are operated by the control power supply voltage Vcc supplied from the control power supply circuit 141.

  As described above, the control unit 14 of the lighting device 1 includes the control power supply circuit 141 that supplies operating power to the microcomputer 140, the step-down chopper circuit 111 of the input power supply unit 11, the charge / discharge unit 12, and the drive circuit 130 of the output power supply unit 13. Have. Compared with the case where the lighting device 1 has a plurality of power supply circuits for individually supplying operating power to the microcomputer 140, the step-down chopper circuit 111, the charging / discharging unit 12, and the driving circuit 130, the circuit configuration is complicated. In addition, the increase in size can be suppressed. However, when each of the charging unit, the discharging unit, the first protection unit, and the second protection unit is configured by independent circuit units, the lighting device 1 includes at least two or more of a plurality of circuit units including these. Operation power may be supplied to the circuit portion from the control power supply circuit 141.

  As illustrated in FIG. 2, the lighting fixture 2 according to the present embodiment (hereinafter abbreviated as the lighting fixture 2) includes a lighting device 1, a light source 3, and a fixture body 20 that holds the lighting device 1 and the light source 3. It is configured as a table lamp (moving light fixture placed on furniture such as a desk). However, the lighting fixture 2 is not limited to a table lamp, and may be a portable lighting fixture (moving lamp fixture) other than the table lamp. In the following description, in FIG. 2, the vertical and horizontal directions and the front and rear directions of the lighting fixture 2 are defined.

  The instrument body 20 includes a pedestal portion 21 that is placed on a flat surface such as the top surface of a desk top, and an arm portion 22 that is rotatably supported with respect to the pedestal portion 21. The pedestal portion 21 includes a base portion 210 having a flat bottom surface and a body portion 211 extending upward from the base portion 210. The base part 210 is formed in a truncated pyramid shape. The body portion 211 is formed in a substantially flat rectangular tube shape. However, there is no clear boundary between the base part 210 and the body part 211, and the base part 210 and the body part 211 may be one structure as a whole.

  The instrument body 20 has a rotation shaft 23 at the upper end of the body 211. The arm portion 22 is supported on the first end (rear end) side in the longitudinal direction so as to be rotatable in the vertical direction around the rotation shaft 23. The appliance main body 20 accommodates the lighting device 1 in the internal space of the base portion 210. The instrument body 20 accommodates the light source 3 at the second end (front end) in the longitudinal direction of the arm portion 22. The light emitted from the light source 3 is applied to the surface (for example, the top surface of the desk top) on which the pedestal portion 21 is placed through a window provided on the lower surface at the front end of the arm portion 22. An input device (for example, a touch sensor 1420) of the operation input unit 142 is disposed on the front surface of the base unit 210. Further, the power cable 24 is drawn from the rear surface of the base portion 210. An insertion plug 25 is provided at the tip of the power cable 24. That is, by inserting the plug 25 into the wall outlet, the pair of input terminals T11 and T12 of the lighting device 1 and the AC power supply 4 are electrically connected. The luminaire 2 operates with power supplied from the AC power supply 4 when the plug 25 is plugged into the wall outlet, and charges the storage battery 10 when the plug 25 is not plugged into the wall outlet. It operates with the power. That is, the luminaire 2 can be used in a place where there is no wall outlet or a place where the distance to the wall outlet is longer (far) than the length of the power cable 24.

  As described above, the lighting device 1 includes the storage battery 10, a charging unit (charging / discharging unit 12) that charges the storage battery 10, and a discharging unit (charging / discharging unit 12) that controls the current discharged from the storage battery 10 to the light source 3. Is provided. Moreover, the lighting device 1 controls the 1st protection part (charging / discharging part 12) which controls the charging part (charging / discharging part 12), and protects the storage battery 10 from overcharging, and the discharging part (charging / discharging part 12). The second protection unit (charging / discharging unit 12) for protecting the storage battery 10 from overdischarge and the control unit 14 are provided. The control unit 14 operates at least two or more circuit units among a plurality of circuit units including a charging unit, a discharging unit, a first protection unit, and a second protection unit (supplying operation power).

  Further, as described above, the lighting fixture 2 includes the lighting device 1, the light source 3 that is turned on by the lighting device 1, and the fixture main body 20 that holds the lighting device 1 and the light source 3.

  Since the lighting device 1 is configured as described above, it is possible to reduce the complexity and size of the circuit configuration while using a highly functional storage battery such as a nickel-hydrogen storage battery or a lithium secondary battery. In addition, the lighting fixture 2 includes the lighting device 1 as described above, so that the circuit configuration is complicated and the size is suppressed while using a high-performance storage battery such as a nickel-hydrogen storage battery or a lithium secondary battery. Can do.

  In the lighting device 1, the control unit 14 preferably supplies power for operation (control power supply voltage Vcc) to at least two or more circuit units (charge / discharge unit 12) among the plurality of circuit units.

  If the lighting device 1 is configured as described above, it is possible to further reduce the complexity and size of the circuit configuration.

  Furthermore, in the lighting device 1, it is preferable that the control unit 14 operates the first protection unit and the second protection unit (charging / discharging unit 12) (supplying the control power supply voltage Vcc).

  If the lighting device 1 is configured as described above, it is possible to further reduce the complexity and size of the circuit configuration.

DESCRIPTION OF SYMBOLS 1 Lighting device 2 Lighting fixture 3 Light source 10 Storage battery 12 Charging / discharging part (charging part, discharge part, 1st protection part, 2nd protection part)
14 Control unit 20 Instrument body

Claims (4)

A storage battery; a charging unit that charges the storage battery; a discharge unit that controls a current discharged from the storage battery to a light source; a first protection unit that controls the charging unit to protect the storage battery from overcharging; A second protection unit for controlling the discharge unit to protect the storage battery from over-discharge, and a control unit;
The control unit operates at least two or more of the circuit units including a plurality of circuit units including the charging unit, the discharging unit, the first protection unit, and the second protection unit. apparatus.   The lighting device according to claim 1, wherein the control unit supplies power for operation to at least two of the plurality of circuit units.   The lighting device according to claim 1, wherein the control unit operates the first protection unit and the second protection unit.   An illumination fixture comprising: the lighting device according to any one of claims 1 to 3, a light source that is turned on by the lighting device, and a fixture main body that holds the lighting device and the light source.

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