JP2019140084A - Luminaire - Google Patents

Abstract

To provide a luminaire such that an audio reproducing function can be easily added to the luminaire, according to the present invention.SOLUTION: A luminaire according to the present invention comprises: a light source; a first power source part which turns on/off a switching element to let a light source illuminate; a reproduction part which converts audio data into an audio signal; a second power source part which places the reproduction part in operation; and an audio output part which generates an audio according to the audio signal. A luminaire according to the present invention comprises: a light source; a first power source part which turns on/off the switching element to let the light source illuminate; a reproduction part which converts audio data into an audio signal; a first audio output part which generates an audio according to the audio signal; a second audio output part which generates an audio according to the audio signal; and a cover which covers the light source and transmits light that the light source emits. The first audio output part is provided at one end in a longer direction of the cover, and the second audio output part is provided at the other end in the longer direction of the cover.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a lighting device.

  Patent Document 1 discloses an illumination device having an audio output function. In this lighting device, a lamp is disposed inside a spherical casing. An actuator is attached to the casing. An audio signal is supplied to the actuator. The actuator vibrates in response to the audio signal. The casing vibrates according to the vibration of the actuator, and sound is reproduced. By attaching the actuator to the back side of the lamp, the actuator can be made inconspicuous.

Japanese Patent No. 6237768

  Generally, by outputting sound from the ceiling, it becomes easy to spread the sound over the entire space where the sound output device is provided. For this reason, providing an audio output device on the ceiling is advantageous in terms of location. Here, in general, the lighting device provides light from above the user and is located on the ceiling surface of the room. For this reason, it becomes possible for an illuminating device to provide an audio | voice from a ceiling because it has an audio function. Therefore, by reproducing the sound from the lighting device, it is not necessary to install another sound reproduction device, which is efficient.

  Here, a structure in which half of the fixture housing of the lighting device is embedded in the ceiling, or a structure in which the gap between the lighting device and the ceiling is narrow is conceivable. In such a structure, it is considered that a sound source such as an actuator or a speaker is provided in the lighting device. If a sound source is provided on the side opposite to the light emission direction with respect to the ceiling surface, it may be difficult for sound to be emitted in the light emission direction.

  Further, depending on the position of the sound source or the structure of the illumination shade in the lighting device, the sound output direction may be limited to a specific direction such as a downward direction. In this case, the viewer who is directly under the lighting apparatus can hear the sound, but the viewer who is away from the lighting apparatus may not be able to hear the sound. Further, if the arrangement of the speakers is adjusted in order to diffuse the sound in a direction other than the specific direction, the speakers may block the light and the light irradiation area may be limited.

  In Patent Document 1, power is supplied from a common substrate unit to the lamp and an audio signal is supplied to the actuator. In this case, in order to manufacture the lighting device, it is necessary to prepare a dedicated substrate unit, which may increase the manufacturing cost.

  When outputting a stereo signal, it is generally desirable to arrange the output portions of the L signal and the R signal separated by a certain distance. In Patent Document 1, a spherical illumination device is assumed, and it may be difficult to ensure the distance between the actuators. In addition, it is necessary to adjust the arrangement of speakers, actuators, lamps, and the like inside the spherical casing, which may complicate the structure of the lighting device.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to obtain an illumination device that can easily add a sound reproduction function.

  The illumination device according to the present invention includes a light source, a first power supply unit that turns on the light source by turning on and off the switching element, a reproduction unit that converts audio data into an audio signal, and a second power supply unit that operates the reproduction unit. A voice output unit that emits voice in response to the audio signal.

  The illumination device according to the present invention includes a light source, a first power supply unit that turns on the light source by turning on and off the switching element, a reproduction unit that converts audio data into an audio signal, and a first that emits sound in accordance with the audio signal. An audio output unit; a second audio output unit that emits audio in response to the audio signal; and a cover that covers the light source and transmits light emitted from the light source, the first audio output unit including the cover The second audio output unit is provided at the other end in the longitudinal direction of the cover.

  In the illuminating device according to the present invention, the first power supply unit that turns on the light source and the second power supply unit that operates the reproduction unit are separately provided. For this reason, the power supply circuit for lighting of a light source and audio | voice reproduction | regeneration can be easily comprised by adding a 2nd power supply part to a 1st power supply part. Therefore, an audio playback function can be easily added.

  In the illuminating device according to the present invention, audio output units are provided at both ends in the longitudinal direction of the cover. For this reason, it can prevent that arrangement | positioning of a light source etc. is obstructed in order to provide an audio | voice output part. Therefore, it is possible to prevent the necessity of adjusting the arrangement of the light source and the like inside the cover, and it is possible to easily add a sound reproduction function.

1 is a circuit block diagram of a lighting device according to Embodiment 1. FIG. 1 is a perspective view of a lighting device according to Embodiment 1. FIG. 1 is a sectional view of a lighting device according to Embodiment 1. FIG. 3 is a perspective view of a cover according to Embodiment 1. FIG. 6 is a perspective view of a cover according to a first modification of the first embodiment. FIG. FIG. 6 is a cross-sectional view of a lighting device according to a second modification of the first embodiment. FIG. 10 is a perspective view of a lighting device according to a third modification of the first embodiment. It is sectional drawing of the illuminating device which concerns on Embodiment 2. FIG. 6 is a perspective view of a cover according to Embodiment 2. FIG. 6 is a plan view of a cover according to Embodiment 2. FIG.

  An illumination device according to an embodiment of the present invention will be described with reference to the drawings. The same or corresponding components are denoted by the same reference numerals, and repeated description may be omitted.

Embodiment 1 FIG.
FIG. 1 is a circuit block diagram of lighting apparatus 100 according to Embodiment 1. The lighting device 100 includes a first unit 40, a second unit 60, and an LED light source unit 80. The first unit 40 is a lighting device that turns on the light source 81.

  The first unit 40 includes a terminal portion CN1 connected to the external power supply AC. The external power source AC is, for example, a commercial power source. The first unit 40 includes a terminal portion CN2 connected to the LED light source unit 80. The LED light source unit 80 includes a plurality of light sources 81 connected in series. The light source 81 is, for example, an LED. The number of light sources 81 included in the LED light source unit 80 may be one or more. Further, the plurality of light sources 81 may be connected in parallel or in series and parallel. The first unit 40 includes a first terminal portion CN3 to which the second unit 60 is connected.

  The first unit 40 includes a first power supply unit 41. The first power supply unit 41 includes a rectifier DB connected to the terminal unit CN1. The rectifier DB rectifies the external power supply AC. One end of the coil L1 is connected to the output on the high potential side of the rectifier DB. The other end of the coil L1 is connected to the anode of the diode D1 and the drain of the switching element Q1. The switching element Q1 is, for example, a MOSFET (Metal-Oxide-Semiconductor Field-Effect Transistor). The source of the switching element Q1 is connected to the output on the low potential side of the rectifier DB. The gate of the switching element Q1 is connected to the MOSFET driver 44.

  The cathode of the diode D1 is connected to the positive electrode of the capacitor C1. The negative electrode of the capacitor C1 is connected to the output on the low potential side of the rectifier DB. As described above, the first power supply unit 41 includes the boost chopper circuit connected to the output of the rectifier DB. The step-up chopper circuit includes a coil L1, a switching element Q1, and a diode D1. In the step-up chopper circuit, the pulsating voltage rectified by the rectifier DB is charged to the capacitor C1 as a predetermined DC high voltage.

  A series circuit of resistors R2 and R3 is connected in parallel with the capacitor C1. The connection point of the resistors R2 and R3 is connected to the P1 terminal of the control unit IC1. The DC high voltage applied across the capacitor C1 is resistance-divided by the resistors R2 and R3 and input to the P1 terminal of the control unit IC1.

  The control unit IC1 outputs a switching signal for operating the switching element Q1 from the Vg1 terminal so that the voltage charged in the capacitor C1 matches the target voltage. That is, the control unit IC1 outputs a switching signal so that the voltage at the P1 terminal becomes a constant voltage.

  The control unit IC1 is a microcomputer, for example. In general, the operating voltage of the microcomputer is smaller than the driving voltage of the MOSFET. For this reason, the switching signal is temporarily input to the MOSFET driver 44 from the Vg1 terminal. The MOSFET driver 44 switches the switching element Q1 according to the switching signal. Thereby, switching element Q1 can be switched stably.

  The drain of the switching element Q2 is connected to the positive electrode of the capacitor C1. The cathode of the diode D2 and one end of the coil L2 are connected to the source of the switching element Q2. The gate of the switching element Q2 is connected to the MOSFET driver 44. The anode of the diode D2 is connected to the negative electrode of the capacitor C1. The other end of the coil L2 is connected to the positive electrode of the capacitor C3. The negative electrode of the capacitor C3 is connected to one end of the resistor R4. The other end of the resistor R4 is connected to the ground terminal GND1 of the control unit IC1 and the negative electrode of the capacitor C1.

  The first power supply unit 41 includes a buck converter circuit connected to the capacitor C1. The buck converter circuit is a lighting circuit composed of a switching element Q2, a coil L2, and a diode D2. A voltage obtained by smoothing the high-frequency voltage output from the buck converter circuit is applied to the capacitor C3.

  The LED light source unit 80 is connected to the capacitor C3 via the terminal unit CN2. The voltage applied to both ends of the capacitor C3 is supplied to the light source 81 and turns on the light source 81. The current that flows when the light source 81 is turned on is converted into a voltage by the resistor R4. One end of the resistor R4 is connected to the P3 terminal of the control unit IC1. The voltage applied to the resistor R4 is input to the P3 terminal of the control unit IC1.

  The control unit IC1 outputs a switching signal for operating the switching element Q2 from the Vg2 terminal. The controller IC1 outputs a switching signal so that the voltage at the P3 terminal matches the target value. Therefore, the light source 81 is turned on by constant current control. The switching signal from the Vg2 terminal of the control unit IC1 stably switches the switching element Q2 via the MOSFET driver 44 as in the step-up chopper circuit.

  From the above, the first power supply unit 41 turns on the light source 81 by turning on and off the switching elements Q1 and Q2. The control unit IC1 is a lighting control unit that performs control to convert electric power obtained from the external power source AC into electric power for lighting the light source 81.

  A control power supply unit 42 is connected to the positive electrode of the capacitor C1. The control power supply unit 42 generates a voltage for the control power supply V1 from the electric charge stored in the capacitor C1. A capacitor C2 is connected between the output of the control power supply unit 42 and the negative electrode of the capacitor C1. The output voltage of the control power supply unit 42 is smoothed by the capacitor C2.

  The voltage of the control power supply V1 is, for example, 15V. A step-down circuit unit 43 is connected to the control power source V1. The step-down circuit unit 43 steps down the voltage of the control power supply V1. The output voltage of the step-down circuit unit 43 is input to the VDD1 terminal of the control unit IC1. That is, the control power source V1 is a control power source for the control unit IC1. The voltage of the VDD1 terminal is 5V, for example. The control power supply V1 is supplied to the MOSFET driver 44 to operate the MOSFET driver 44.

  The control power supply unit 42 may be a step-down converter circuit such as a buck converter circuit or a buck-boost converter such as a flyback circuit.

  The first terminal unit CN3 is connected to the control power supply V1 and has a power supply terminal equal to the voltage of the control power supply V1. The first terminal unit CN3 has an input terminal connected to the RX1 terminal of the control unit IC1 and an output terminal connected to the TX1 terminal. Further, the first terminal portion CN3 has a GND terminal connected to a grounding terminal serving as a circuit reference potential. The input terminal and the output terminal are communication terminals of the first terminal unit CN3.

  Next, the second unit 60 will be described. The second unit 60 includes a control unit IC2, a second power supply unit 61, a second terminal unit CN4, and a terminal unit CN5. The second unit 60 is connected to the first unit 40 via the first terminal portion CN3 and the second terminal portion CN4. The second terminal portion CN4 has a terminal corresponding to the first terminal portion CN3. That is, the second terminal unit CN4 includes a power supply terminal, an input terminal, an output terminal, and a GND terminal.

  The power terminal of the second terminal unit CN4 connects the power terminal of the first terminal unit CN3 and the second power unit 61. The second power supply unit 61 is supplied with power from the first power supply unit 41 and operates. The second power supply unit 61 converts the power supplied from the first power supply unit 41 into a constant DC voltage. The output of the second power supply unit 61 is input to the VDD2 terminal of the control unit IC2. That is, the control unit IC2 operates when the control power supply V1 is supplied from the VDD2 terminal. The second power supply unit 61 generates a power supply for operating a receiving unit 62, a reproducing unit 63, an amplifier 64, and an audio output unit 70 which will be described later.

  The output terminal of the second terminal unit CN4 connects the input terminal of the first terminal unit CN3 and the TX2 terminal of the control unit IC2. Thereby, the RX1 terminal of the control unit IC1 is connected to the TX2 terminal of the control unit IC2. The input terminal of the second terminal unit CN4 connects the output terminal of the first terminal unit CN3 and the RX2 terminal of the control unit IC2. Thereby, the TX1 terminal of the control unit IC1 is connected to the RX2 terminal of the control unit IC2. The GND terminal of the second terminal unit CN4 connects the GND terminal of the first terminal unit CN3 and the GND2 terminal that is the circuit reference potential of the control unit IC2. The input terminal and the output terminal are communication terminals of the second terminal unit CN4.

  The control unit IC2 includes a receiving unit 62, a reproducing unit 63, and an amplifier 64. The receiving unit 62 receives information such as audio data transmitted from the outside. The receiving unit 62 receives information as a wireless signal such as a Bluetooth (registered trademark) signal. Further, the receiving unit 62 may receive information stored in the storage unit of the control unit IC2 or another control IC (not shown) by wire or wirelessly.

  A reproduction unit 63 is connected to the output of the reception unit 62. The reproduction unit 63 converts the audio data received by the reception unit 62 into an audio signal. The audio signal is also referred to as a sound signal or an acoustic signal, and is a sound or a signal representing a sound. In the present embodiment, the audio signal includes two stereo signals. The present invention is not limited to this, and the audio signal may be any signal that can be reproduced by the audio output unit 70 described later.

  An amplifier 64 is connected to the output of the reproduction unit 63. The amplifier 64 amplifies the audio signal processed by the reproduction unit 63. The output of the amplifier 64 is connected to the L + terminal and L− terminal, and the R + terminal and R− terminal of the control unit IC2. One of the two stereo signals is output from the L + terminal and the L− terminal, and the other of the two stereo signals is output from the R + terminal and the R− terminal.

  The L + terminal and the L− terminal, and the R + terminal and the R− terminal are connected to the audio output unit 70 via the terminal unit CN5. The sound output unit 70 emits sound according to the audio signal. The audio output unit 70 includes a first audio output unit 3 and a second audio output unit 4. Each of the first audio output unit 3 and the second audio output unit 4 is a piezoelectric element. The piezoelectric element vibrates according to the audio signal. The piezoelectric element operates in accordance with the input audio signal and vibrates in synchronization with the audio signal.

  The piezoelectric element is also called an actuator. The piezoelectric element is a piezo film, for example, and may be formed of ceramic. In this embodiment, a piezoelectric element refers to a component that vibrates according to the frequency of an input AC voltage when an AC voltage is applied. Not only this but the audio | voice output part 70 can employ | adopt all the structures which can reproduce | regenerate an audio signal.

  The L + terminal and the L− terminal are connected to the first audio output unit 3, and the R + terminal and the R− terminal are connected to the second audio output unit 4. That is, one of the two stereo signals is input to the first audio output unit 3, and the other of the two stereo signals is input to the second audio output unit 4. As a result, stereo sound is output from the sound output unit 70.

  Note that the playback unit 63 may convert the information stored in the storage unit of the control unit IC2 into an audio signal, not limited to the information received by the reception unit 62. In this case, the receiving unit 62 may not be provided.

  Further, as described above, the TX1 terminal of the control unit IC1 and the RX2 terminal of the control unit IC2 are connected. Further, the RX1 terminal of the control unit IC1 and the TX2 terminal of the control unit IC2 are connected. Thereby, control part IC1 and control part IC2 can mutually communicate. That is, the first unit 40 communicates with the second unit 60 through the communication terminal.

  Communication contents between the first unit 40 and the second unit 60 will be described. For example, the second unit 60 may start or stop audio reproduction based on a signal from the first unit 40. It is assumed that the LED light source unit 80 is turned off due to some event. When detecting that the light source 81 is extinguished, the control unit IC1 transmits a command to stop audio reproduction from the TX1 terminal to the RX2 terminal. Thereby, the control unit IC2 stops the sound reproduction.

  Further, it is assumed that the control unit IC1 detects an abnormality of the LED light source unit 80. The control unit IC1 transmits the detection result to the control unit IC2. In response to the signal from the control unit IC1, the control unit IC2 notifies the user of the abnormality of the LED light source unit 80 by sound reproduction. According to this, the user can know the abnormality of the light source 81. The abnormality of the light source 81 is, for example, the LED light source unit 80 not connected or short-circuited.

  Further, communication may be performed from the control unit IC2 to the control unit IC1. For example, the first unit 40 may change the brightness of the light source 81 by a signal from the second unit 60. In this case, a dimming signal for changing the brightness of the light source 81 may be superimposed on the audio data received by the receiving unit 62. The control unit IC2 analyzes the audio data and the dimming signal, and transmits the dimming signal from the TX2 terminal to the RX1 terminal. As a result, the control unit IC1 changes the brightness of the light source 81 in accordance with the received dimming signal.

  When the dimming signal is not superimposed on the audio data, the control unit IC2 may change the brightness of the LED light source unit 80. In this case, the control unit IC2 analyzes the received audio data and instructs the control unit IC1 to change the brightness of the LED light source unit 80 based on the analysis result. For example, the control unit IC2 instructs the control unit IC1 to have brightness suitable for the audio data received by the light source 81.

  FIG. 2 is a perspective view of lighting apparatus 100 according to Embodiment 1. FIG. FIG. 3 is a cross-sectional view of lighting apparatus 100 according to Embodiment 1. The lighting device 100 further includes a cover 2 that covers the light source 81 and transmits light emitted from the light source 81. For example, the cover 2 may be a diffusion cover that diffuses light emitted from the light source 81 or may be transparent.

  In addition, the lighting device 100 includes a mounting plate 1. A first unit 40 and a second unit 60 are provided on the upper surface of the mounting plate 1. A plurality of light sources 81 are provided on the back surface, which is the surface opposite to the top surface of the mounting plate 1. An LED mounting substrate 82 is provided on the back surface of the mounting plate 1. A plurality of light sources 81 are mounted on the LED mounting substrate 82. The cover 2 is attached to the mounting plate 1. 2 and 3, wirings connected to the first unit 40, the second unit 60, and the like are omitted.

  FIG. 4 is a perspective view of the cover 2 according to the first embodiment. The cover 2 is substantially rectangular in plan view. Moreover, the cross-sectional shape of the cover 2 is U-shaped, for example. The cover 2 has an end surface 2a at one end in the longitudinal direction and an end surface 2b at the other end. The cover 2 has a main portion 2c that connects the end surface 2a and the end surface 2b and extends in the longitudinal direction. The first audio output unit 3 is provided on the inner surface of the end surface 2a. The second audio output unit 4 is provided on the inner surface of the end surface 2b. The inner surface of the cover 2 is a surface facing the light source 81 and is a surface on which light emitted from the light source 81 is incident.

  In the present embodiment, the first audio output unit 3 is provided at one end in the longitudinal direction of the cover 2, and the second audio output unit 4 is provided at the other end in the longitudinal direction of the cover 2. In this way, by attaching the piezoelectric element to the cover 2, vibration is transmitted from the piezoelectric element to the cover 2. As a result, sound corresponding to the audio signal is output from the cover 2.

  For example, when the lighting device 100 of the present embodiment is attached to the ceiling, the sound can be efficiently spread in the space where the lighting device 100 is attached. Further, since the sound is output from above the user, it is possible to make it easier for the user to reach the sound. Further, it is not necessary to install a sound reproduction device separately from the lighting device 100, and the installation cost and space for installation of the sound reproduction device can be reduced.

  In addition, since the cover 2 vibrates according to the audio signal, sound can be output in the light emitting direction of the lighting device 100 with respect to the ceiling surface. Therefore, the sound can be spread more efficiently in the space where the lighting device 100 is attached. Moreover, since sound reproduction can be performed with the cover 2 which is a member generally used in the lighting device, the lighting device 100 can be reduced in parts.

  In the case of outputting a stereo signal, generally, an appropriate sound can be provided by arranging the output portions of the L signal and the R signal separated by a certain distance. In the present embodiment, since the first audio output unit 3 and the second audio output unit 4 are arranged at both ends of the cover 2, a distance between the first audio output unit 3 and the second audio output unit 4 is ensured. it can. By causing the first audio output unit 3 and the second audio output unit 4 to vibrate apart by a certain distance, it is possible to suppress the L signal and the R signal from interfering with each other. Thereby, in the illuminating device 100, the stereo output comprised from L signal and R signal is realizable. Therefore, sound suitable for the audio signal can be output from the lighting device 100.

  The first audio output unit 3 and the second audio output unit 4 are provided on the inner surface of the cover 2. For this reason, it is possible to make the audio output unit 70 difficult to see from the user. For this reason, an audio reproduction function can be added without impairing the design. The second unit 60 is provided on the opposite side of the light source 81 with respect to the mounting plate 1. For this reason, the change of the external appearance of the illuminating device 100 by having added the audio | voice reproduction | regeneration function can be suppressed.

  In the present embodiment, the audio output units 70 are provided at both ends of the cover 2. For this reason, it can prevent that arrangement | positioning of the light source 81 grade | etc., Is obstructed in order to provide the audio | voice output part 70. Therefore, it is possible to prevent the necessity of adjusting the arrangement of the light source 81 and the like inside the cover 2 and to easily add a sound reproduction function. Moreover, it can prevent that the structure of the illuminating device 100 becomes complicated. Furthermore, the influence on the light irradiation area due to the addition of the sound reproduction function can be suppressed.

  Furthermore, in lighting apparatus 100 according to the present embodiment, first power supply unit 41 that turns on light source 81 and second power supply unit 61 for sound reproduction are provided separately. According to this configuration, by adding the second power supply unit 61 to the first power supply unit 41, a power supply circuit for turning on the light source 81 and reproducing the sound can be easily configured. Therefore, an audio playback function can be easily added. Furthermore, there is no need to prepare a dedicated power supply circuit for the lighting device 100, and the first power supply unit 41 can be standardized. Therefore, the manufacturing cost can be suppressed.

  Further, in the present embodiment, the first unit 40 that turns on the light source 81 and the second unit 60 for sound reproduction are provided separately. The first unit 40 and the second unit 60 can be easily connected or separated by the first terminal portion CN3 and the second terminal portion CN4. For this reason, by adding the second unit 60 to the first unit 40, it is possible to easily add an audio reproduction function to the lighting device 100.

  Furthermore, when the sound reproduction function is unnecessary, the lighting device 100 that does not have the sound reproduction function can be easily configured by removing the second unit 60 and the sound output unit 70. Therefore, standardization of the 1st unit 40, LED light source part 80, cover 2, mounting board 1, etc. is attained, and manufacturing cost can be controlled.

  As a modification of the present embodiment, the first power supply unit 41 and the second power supply unit 61 may not be separated. At this time, the control unit IC1 and the control unit IC2 may be one integrated control unit. Further, the first unit 40 and the second unit 60 may be integrated. The second unit 60 may be supplied with power from other than the control power source V1. For example, the second unit 60 may be directly supplied with power from the external power supply AC.

  Further, as the first power supply unit 41, any circuit that turns on the light source 81 by turning on and off the switching element can be employed. The first power supply unit 41 may include either a buck converter circuit or a boost chopper circuit. For example, when the external power supply AC is a DC power supply, the first power supply unit 41 may not include a boost chopper circuit. Further, any circuit that supplies power to the control unit IC2 can be employed as the second power supply unit 61. For example, the second power supply unit 61 may be supplied with power from other than the first power supply unit 41. Further, the second power supply unit 61 may be provided outside the second unit 60, or may be the control power supply unit 42. That is, when the voltage of the control power supply V1 is a voltage suitable for the operation of the second unit 60, the second power supply unit 61 in the second unit 60 may not be provided. In this case, the voltage of the control power supply V1 is supplied to the VDD2 terminal.

  The configuration of the second unit 60 is not limited to that shown in FIG. The second unit 60 includes at least the playback unit 63 and outputs an audio signal to the outside. Further, the audio output unit 70 may be provided at a portion other than both ends of the cover 2. Further, the structure of the cover 2 is not limited to the structure shown in FIGS. 2 to 4, and the cover 2 may cover the light source 81.

  FIG. 5 is a perspective view of the cover 2 according to the first modification of the first embodiment. In the first modification, the first audio output unit 3 and the second audio output unit 4 are provided at both ends in the longitudinal direction of the main portion 2 c inside the cover 2. The 1st audio | voice output part 3 and the 2nd audio | voice output part 4 are provided in the bottom part of the main part 2c so that it may face downward. Also in the first modification, the same effect as in the first embodiment can be obtained.

  FIG. 6 is a cross-sectional view of lighting apparatus 200 according to the second modification of the first embodiment. In the lighting device 200, the audio output unit 270 includes two speakers 8. One of the two speakers 8 is provided at one end in the longitudinal direction of the cover 2, and the other of the two speakers 8 is provided at the other end in the longitudinal direction of the cover 2. Each speaker 8 is housed in a speaker case 7. The speaker case 7 is made of, for example, a resin material. The speaker 8 is mounted on the mounting plate 1 while being housed in a sealed speaker case 7.

  It has been found that even if speakers are provided at both ends of the cover 2 instead of the piezoelectric element, the same acoustic effect as in the first embodiment can be obtained. That is, since the sound is output to the front side of the lighting device 200, that is, the user side, the sound can be spread efficiently.

  FIG. 7 is a perspective view of lighting apparatus 300 according to the third modification of the first embodiment. The illumination device 300 is substantially square. In the lighting device 300, the first unit 40 and the second unit 60 are mounted on the upper surface of the substantially square mounting plate 301. A light source 81 (not shown) is mounted on the back surface of the mounting plate 301.

  Further, a cover 302 is attached to the mounting plate 301 so as to cover the light source 81. The cover 302 is substantially square. An audio output unit 370 that is a piezoelectric element is provided on the inner surface of the cover 302. In FIG. 7, the position of the audio output unit 370 is indicated by a broken line for convenience. Thus, the shape of the cover 302 may be a square or the like. Further, only one piezoelectric element may be attached to the cover 302.

  As another modification of the present embodiment, the piezoelectric element may be vibrated outside the audible region. Thereby, adhesion of dust to the cover 2 can be suppressed, and insects can be prevented from approaching.

  These modifications can be applied as appropriate to the illumination devices according to the following embodiments. In addition, since there are many common points with Embodiment 1 about the illuminating device which concerns on the following embodiment, it demonstrates centering around difference with Embodiment 1. FIG.

Embodiment 2. FIG.
FIG. 8 is a cross-sectional view of lighting apparatus 400 according to Embodiment 2. FIG. 9 is a perspective view of the cover 2 according to the second embodiment. FIG. 10 is a plan view of the cover 2 according to the second embodiment. The first audio output unit 3 is provided at one end in the longitudinal direction of the cover 2, and the second audio output unit 4 is provided at the other end in the longitudinal direction of the cover 2. Since the first audio output unit 3 and the second audio output unit 4 are provided inside the cover 2, the first audio output unit 3 and the second audio output unit 4 cannot actually be seen from the outside of the illumination device 400. 8 and 9, the positions of the first audio output unit 3 and the second audio output unit 4 are shown for convenience.

  The first audio output unit 3 and the second audio output unit 4 are provided at diagonal positions of the cover 2 in plan view. That is, among the side surfaces 2d on both sides in the short direction of the cover 2, the first sound output unit 3 is provided on one side, and the second sound output unit 4 is provided on the other side. The side surface 2d is a part of the main portion 2c and faces, for example, the horizontal direction. The first audio output unit 3 and the second audio output unit 4 face opposite sides in the short direction of the cover 2.

  Such arrangement of the first audio output unit 3 and the second audio output unit 4 can suppress the vibrations of the first audio output unit 3 and the second audio output unit 4 from interfering with each other. Furthermore, sound can be diffused to the side of the lighting device 400.

  The technical features described in each embodiment may be used in appropriate combination.

  AC external power supply, CN1, CN2, CN5 terminal section, CN3 first terminal section, CN4 second terminal section, DB rectifier, D1, D2 diode, IC1, IC2 control section, L1, L2 coil, C1, C2, C3 capacitor, Q1, Q2 switching element, R2, R3, R4 resistance, 1, 301 mounting plate, 2, 302 cover, 2a, 2b end face, 2c main part, 2d side face, 3 first audio output part, 4 second audio output part, 7 Speaker case, 8 Speaker, 40 1st unit, 41 1st power supply unit, 42 Control power supply unit, 43 Step-down circuit unit, 44 MOSFET driver, 60 2nd unit, 61 2nd power supply unit, 62 receiving unit, 63 Playback unit , 64 Amplifier, 70, 370 Audio output unit, 80 LED light source unit, 81 Light source, 82 LED mounting substrate, 100, 20 , 300, 400 lighting device

Claims (15)

A light source;
A first power supply unit that turns on the light source by turning on and off the switching element;
A playback unit for converting audio data into an audio signal;
A second power supply unit for operating the playback unit;
An audio output unit that emits audio in response to the audio signal;
A lighting device comprising: A cover for covering the light source and transmitting light emitted from the light source;
The lighting device according to claim 1, wherein the audio output unit includes a piezoelectric element that vibrates according to the audio signal, and is provided on an inner surface of the cover.   The lighting device according to claim 1, wherein the audio output unit includes a speaker. A cover for covering the light source and transmitting light emitted from the light source;
The audio output unit includes a first audio output unit and a second audio output unit,
The first audio output unit is provided at one end in the longitudinal direction of the cover,
4. The illumination device according to claim 1, wherein the second audio output unit is provided at the other end in the longitudinal direction of the cover. 5. The first audio output unit is provided on one of the side surfaces of the cover in the short direction,
5. The lighting device according to claim 4, wherein the second audio output unit is provided on the other side surface of the both sides in the short direction of the cover.   6. The lighting device according to claim 1, wherein the second power supply unit operates by being supplied with electric power from the first power supply unit. 6. A first unit comprising: the first power supply unit; and a first terminal unit;
A second unit comprising: the reproduction unit; the second power supply unit; and a second terminal unit;
With
The lighting device according to claim 1, wherein the first unit is connected to the second unit via the first terminal portion and the second terminal portion.   The lighting device according to claim 7, further comprising a mounting plate in which the first unit and the second unit are provided on an upper surface and the light source is provided on a rear surface. Each of the first terminal portion and the second terminal portion includes a communication terminal,
The lighting device according to claim 7, wherein the first unit communicates with the second unit through the communication terminal.   The lighting device according to claim 9, wherein the second unit starts or stops sound reproduction according to a signal from the first unit.   The lighting device according to claim 9 or 10, wherein the first unit changes the brightness of the light source according to a signal from the second unit. A light source;
A first power supply unit that turns on the light source by turning on and off the switching element;
A playback unit for converting audio data into an audio signal;
A first sound output unit that emits sound in response to the audio signal;
A second sound output unit that emits sound in response to the audio signal;
A cover that covers the light source and transmits light emitted from the light source;
With
The first audio output unit is provided at one end in the longitudinal direction of the cover,
The second sound output unit is provided at the other end in the longitudinal direction of the cover. The first audio output unit is provided on one of the side surfaces of the cover in the short direction,
The lighting device according to claim 12, wherein the second sound output unit is provided on the other side surface of the both sides in the short direction of the cover.   The lighting device according to claim 12, wherein the cover is substantially rectangular. The audio signal includes two stereo signals;
One of the two stereo signals is input to the first audio output unit,
The lighting device according to any one of claims 12 to 14, wherein the second audio output unit receives the other of the two stereo signals.

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