JP2018181594A - Luminaire - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve workability of construction work while enabling remote control.SOLUTION: A luminaire 1 comprises a remote control unit 4 for receiving a control command for remotely controlling a power supply device 3. One or more arms 15 comprise an attaching part 16 attached to a side surface of an appliance body 10, a fixing part 17 fixed to a building, and a connecting part 18 connecting the attaching part 16 and a fixing part 17. The remote control unit 4 comprises a radio communication part 40 for performing radio communication, an infrared communication part 43 for performing infrared communication, and a case 44 housing the infrared communication part 43. The case 44 is attached to the connecting part 18.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a lighting fixture, and more particularly to a lighting fixture that can be remotely controlled by wireless communication and infrared communication.

  As a prior art example, the raising and lowering type illuminating device of patent document 1 is illustrated. This conventional example includes, for example, a lifting drive unit installed on the ceiling of a gymnasium, a lamp holder suspended to the lifting drive unit via a wire rope, a reflecting rod, and the like. The elevating drive unit includes an electric motor that raises and lowers the lamp holder and the reflecting rod through the wire rope, an inverter device that lights a high-pressure discharge lamp mounted on the lamp holder, a housing that houses the electric motor and the inverter device, and the like. Furthermore, the elevating drive unit includes a receiving unit for receiving a signal for remote control using infrared light as a communication medium. The elevating drive unit is configured to drive the electric motor in response to the signal received by the receiving unit.

  Here, in the conventional example described in Patent Document 1, a movable arm containing a receiver is provided in the housing. The movable arm is slidable with respect to the housing, and is configured to advance the light receiving surface of the receiving unit to a position outside the reflecting rod. That is, the conventional example described in Patent Document 1 is configured such that an infrared signal transmitted from below can be received by the receiving unit without being blocked by the reflecting rod.

JP 2001-126528 A

  However, in the conventional example described in Patent Document 1, the movable arm has to be slid relative to the housing in order to position the receiver at an appropriate position, which results in a decrease in the workability of the installation work.

  An object of the present invention is to provide a luminaire capable of improving the workability of construction work while enabling remote control.

  A lighting fixture according to an aspect of the present invention includes a light source, a power supply device for lighting the light source, a tool body for holding the light source and the power supply device, a support member for supporting the tool body, and the power supply device. And a remote control unit that receives control commands for remote control. The support member includes an attachment portion attached to a side surface of the device body, a fixing portion fixed to a structure, and a connecting portion connecting the attachment portion and the fixing portion. The remote control unit includes a wireless communication unit that performs wireless communication, an infrared communication unit that performs infrared communication, and a housing that accommodates the infrared communication unit. The housing is attached to the connection portion.

  The lighting fixture of the present invention has the effect of being able to improve the workability of the installation work while enabling remote control.

FIG. 1 is a perspective view of a luminaire according to an embodiment of the present invention. FIG. 2 is a bottom view of the above luminaire. FIG. 3 is a top view of the above luminaire. FIG. 4 is a front view of the above luminaire. FIG. 5 is a left side view of the above luminaire. FIG. 6 is a right side cross-sectional view of the above luminaire. FIG. 7 is an exploded perspective view of the remote control unit in the lighting fixture of the same. FIG. 8 is a block diagram of the lighting fixture and control device of the same. FIG. 9 is a front view of the control device of the same.

  Hereinafter, a luminaire according to an embodiment of the present invention will be described in detail with reference to the drawings. The configuration described in the following embodiment 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 etc. as long as the effects of the present invention can be exhibited.

  The luminaire 1 of the present embodiment is a luminaire for high ceilings installed in a high ceiling building such as a gymnasium or a hall. The lighting fixture 1 is, as shown in FIGS. 1 to 6, a light source unit 2, a power supply device 3 for lighting the light source unit 2, a fixture body 10 for holding the light source unit 2 and the power supply device 3, and a support member. An arm 15 and a remote control unit 4 are provided. However, in the following description, the upper, lower, left, and right, front and rear directions of the luminaire 1 are defined in FIG.

  The light source unit 2 includes an LED module 20, a unit cover 21, a heat dissipation member 22, and a lens unit 23 (see FIGS. 1 and 6). The LED module 20 is configured by mounting a plurality of LEDs (Light Emitting Diodes) on the lower surface of a rectangular substrate 200. The plurality of LEDs is preferably, for example, a white LED for illumination.

  The heat dissipating member 22 includes a base plate 220 and a plurality of heat dissipating plates 221 (see FIG. 6). The base plate 220 and the plurality of heat dissipation plates 221 are preferably formed of aluminum or an amyl alloy plate. The base plate 220 is formed in a rectangular plate shape. The LED module 20 is attached to the lower surface of the base plate 220. The substrate 200 of the LED module 20 is screwed to the base plate 220 with the mounting surface (lower surface) on which the plurality of LEDs are mounted facing downward (see FIG. 6). The plurality of heat sinks 221 are attached to the upper surface of the base plate 220 in the front-rear direction and the left-right direction. That is, the heat generated by the plurality of LEDs is conducted from the base plate 220 to the plurality of heat dissipation plates 221 and dissipated from the plurality of heat dissipation plates 221 into the atmosphere.

  The lens unit 23 has a plurality of (the same number as the number of LEDs) lenses and a coupling portion that couples the plurality of lenses. The plurality of lenses and the coupling portion are preferably configured by being integrally molded of a translucent synthetic resin (for example, an acrylic resin). The lens unit 23 is attached to the lower surface of the base plate 220 so as to cover the LED module 20 (see FIG. 6). That is, the light emitted from each LED is collected or diffused by each lens of the lens unit 23.

  The unit cover 21 is formed of a translucent synthetic resin (polycarbonate resin or acrylic resin or the like) into a flat rectangular box shape. The unit cover 21 is attached to the lower surface of the base plate 220 so as to cover the lens unit 23 (see FIG. 6).

  The instrument body 10 has a mounting plate 11, a pair of side plates 12, and a pair of connecting plates 13, as shown in FIGS. The mounting plate 11 is formed in a rectangular shape by a metal plate such as a zinc steel plate. Each of the pair of side plates 12 is formed in a trapezoidal shape when viewed from the front-rear direction (see FIG. 4). However, two vent holes 120 are provided in each side plate 12. An arm attachment portion 121 is provided between two vent holes 120 penetrating in the thickness direction of each side plate 12. Each of the pair of connecting plates 13 is long in the front-rear direction, and the shape viewed from the front-rear direction is L-shaped (see FIG. 1). The pair of side plates 12 and the pair of connection plates 13 are preferably formed of a metal plate such as a zinc steel plate. In the pair of side plates 12, one connecting plate 13 is fixed to each end of the long bottom side (lower side) in the longitudinal direction. That is, the pair of side plates 12 are connected to each other at both ends in the longitudinal direction of the longer base by the pair of connection plates 13. Further, the mounting plate 11 is fixed on the shorter bottom side (upper side) of the pair of side plates 12. That is, the instrument body 10 is formed in a quadrangular frustum shape in which the lower surface and the left and right surfaces are open by the mounting plate 11, the pair of side plates 12 and the pair of connecting plates 13. The light source unit 2 is housed in the interior of the instrument body 10, and on the support pieces 122 projecting from the lower sides of the pair of side plates 12, and the lower support pieces 130 of the pair of connection plates 13, the base plate It is supported by the instrument main body 10 so that 220 may be placed (see FIGS. 3 to 6). Here, the unit cover 21 of the light source unit 2 protrudes downward from the lower surface of the tool body 10 through the opening 14 of the lower surface of the tool body 10 (see FIGS. 1 and 2).

  The arm 15 has a pair of mounting portions 16, a fixing portion 17 which is a long rectangular plate, and a pair of connecting portions 18 (see FIGS. 1 and 5). One connecting portion 18 of the pair of connecting portions 18 is configured to connect one end of the fixing portion 17 in the longitudinal direction and one of the mounting portions 16 of the pair of mounting portions 16. The other connecting portion 18 of the pair of connecting portions 18 is configured to connect the other end in the longitudinal direction of the fixing portion 17 and the other attaching portion 16 of the pair of attaching portions 16. That is, the arm 15 is formed in a U shape by a metal plate such as a zinc steel plate (see FIGS. 1 and 5). A pair of bolt insertion holes 160 pass through each mounting portion 16 respectively. The upper bolt insertion hole is formed in a circular shape, and the lower bolt insertion hole 160 is formed in a circular arc oval (see FIG. 4). The arm 15 is rotatably attached to the arm attachment portion 121 of each side plate 12 of the tool body 10 by the first bolt 161 inserted into the upper bolt insertion hole, with the first bolt 161 as a rotation axis. However, the rotation range of the arm 15 is limited to a range in which the second bolt 162 inserted into the lower bolt insertion hole 160 can move in the bolt insertion hole 160.

  The power supply device 3 includes a lighting circuit unit 320, a first control unit 321, and a first storage unit 322 as shown in FIG. The lighting circuit unit 320 is configured to light the light source unit 2 by converting AC power supplied from the AC power supply 7 into DC power and supplying the DC power to the light source unit 2. The first storage unit 322 is preferably configured by an electrically rewritable non-volatile semiconductor memory such as a flash memory. The first control unit 321 is preferably configured by a microcontroller or the like. The first control unit 321 is configured to control the lighting circuit unit 320 to blink and dim the light source unit 2.

  The power supply device 3 includes a case 30, a cover 31, a circuit block 32, a terminal block 33, and the like, as shown in FIGS. As shown in FIG. 6, the circuit block 32 includes the lighting circuit unit 320, the first control unit 321, and the first storage unit 322 by mounting a large number of circuit components 324 on the surface (lower surface) of the printed wiring board 323. And so on. The circuit block 32 also includes an output cable 325 for supplying DC power to the light source unit 2 and a signal cable 326 for receiving a control signal from the remote control unit 4. The output cable 325 is drawn out of the case 30 through an insertion hole 110 (see FIG. 6) vertically penetrating the mounting plate 11 of the tool body 10, and is electrically connected to the LED module 20 of the light source unit 2. Ru. The signal cable 326 is drawn out from the side of the case 30 and electrically connected to the remote control unit 4.

  The case 30 is formed of a metal plate such as a zinc steel plate in the form of a long box whose lower surface is open. The case 30 has a quadrilateral (e.g., rectangular) top plate 300 and four side plates projecting downward from the four sides of the top plate 300. Here, the side plate protruding from the right short side of the two short sides of the top 300 may be referred to as a first side plate 301 in some cases. The side plate protruding from the left short side of the top plate 300 may be referred to as a second side plate 302. In addition, a side plate protruding from the front long side of the top plate 300 may be referred to as a third side plate 303. Furthermore, a side plate protruding from the rear long side of the top plate 300 may be referred to as a fourth side plate 304. The four side plates 301 to 304 of the case 30 are integrally formed with the top plate 300 by bending and raising a rectangular plate connected to the four sides of the top plate 300 at a substantially right angle downward (see FIG. 6). . The circuit block 32 is attached to the lower surface of the top plate 300. The terminal block 33 is attached to the second side plate 302. The terminal block 33 is a terminal block for power supply lines. The case 30 is attached to the upper surface of the mounting plate 11 by screwing so that the opening of the lower surface is closed by the mounting plate 11.

  The cover 31 is formed in a box shape having a plurality of side walls (a first side wall 310, a second side wall 311, a third side wall 312, a fourth side wall 313) by a metal plate such as a zinc steel plate (FIGS. 5). The second side wall 311 is formed in a rectangular shape having substantially the same size as the first side plate 301 of the case 30. The first side wall 310 is formed in a long rectangular shape, and protrudes laterally (leftward) from the upper side of the second side wall 311 along the longitudinal direction (longitudinal direction) of the second side wall 311. The third side wall 312 protrudes laterally (leftward) from the front side of the second side wall 311 along the short direction (vertical direction) of the second side wall 311. The fourth side wall 313 protrudes laterally (leftward) from the rear side of the second side wall 311 along the short side direction (vertical direction) of the second side wall 311. A screw insertion groove penetrates the right end of the third side wall 312. The screw portion of the fixing screw 36 is inserted from the front toward the rear in the screw insertion groove. Then, the screw portion of the fixing screw 36 is screwed into a screw hole provided in the third side plate 303 of the case 30. The head portion 360 of the fixing screw 36 is preferably a knurled (knurled) head portion so as to be easily pinched and turned with a finger.

  The third side wall 312 is provided with an oval window 3120. Furthermore, in the third side wall 312 and the fourth side wall 313, an axial hole 3121 formed of an oblong hole whose longitudinal direction is the vertical direction passes through (see FIG. 4). The mounting screw 35 inserted into the shaft hole 3121 of the third side wall 312 is screwed into the screw hole provided at the upper right corner of the third side plate 303 of the case 30. However, the length of the cylindrical portion (the portion having no thread between the head and the screw portion) of the mounting screw 35 is longer than the thickness of the metal plate forming the cover 31. Then, the mounting screw 35 inserted into the shaft hole of the fourth side wall 313 is screwed into the screw hole provided in the upper right corner of the fourth side plate 304 of the case 30. At this time, a gap is formed by the cylindrical portion between the head of each mounting screw 35 and the corresponding side wall (third side wall 312 or fourth side wall 313). As a result, the cover 31 is rotatably mounted on the case 30 with the cylindrical portion of the two mounting screws 35 as a rotational axis. Further, since the shaft hole 3121 is an oblong long hole, the cover 31 can slide relative to the case 30 along the longitudinal direction of the shaft hole 3121.

  The remote control unit 4 includes a wireless communication unit 40, an infrared communication unit 43, a housing 44, and a fixing plate 45, as shown in FIG. The wireless communication unit 40 includes a wireless communication circuit 41 and a housing 42 that accommodates the wireless communication circuit 41. The wireless communication circuit 41 has a circuit board on which an antenna 410 for wireless communication, an integrated circuit for wireless communication, and the like are mounted.

  The wireless communication circuit 41 is configured to receive a wireless signal received by the antenna 410, for example, a wireless signal using a 920 MHz band radio wave as a medium, and obtain a control command from the wireless signal. The wireless signal is transmitted from a transmitter 5 and a control device 6 described later, and transmits a control command for remotely controlling (flashing and dimming) the lighting apparatus 1. Furthermore, the wireless communication circuit 41 is configured to transmit a control signal for transmitting the control command acquired from the wireless signal to the first control unit 321 of the circuit block 32 via the signal cable 326 (see FIG. 1 and 6)).

  The housing 42 includes a body 420 and a cover 421 as shown in FIG. The body 420 is formed of a box-shaped synthetic resin molded body whose one surface (lower surface) is open. The cover 421 has a substantially rectangular plate-like lid 422 and a rectangular parallelepiped antenna housing portion 423. The antenna housing portion 423 protrudes downward from the lower surface of the lid 422, and is integrally formed with the lid 422 so as to open at the upper surface of the lid 422. At the front end of the lid 422, an L-shaped hooking piece 424 is provided. The hooking piece 424 protrudes upward from the front end of the lid 422. Further, through holes 4220 are provided at both left and right ends of the rear end of the lid 422.

  The infrared communication unit 43 is configured to receive an infrared signal whose medium is infrared (for example, infrared in a 900 nm band), and to demodulate a baseband signal from the infrared signal. The infrared signal is transmitted from the transmitter 5 and transmits, for example, setting information on pairing between the lighting apparatus 1 (actually the remote control unit 4) and the control device 6. However, the information transmitted by the infrared signal is not limited to the setting information, and may include, for example, a control command for remote control.

  The infrared communication unit 43 receives a light receiving element 430 that receives (receives) an infrared signal, a first connector 431 for outputting a baseband signal output from the light receiving element 430 to the wireless communication unit 40, and a second connector 432 , And the printed wiring board 433. The wireless communication circuit 41 of the wireless communication unit 40 decodes the setting information from the baseband signal received through the first connector 431. The second connector 432 is configured to electrically connect the wireless communication circuit 41 of the wireless communication unit 40 and the signal cable 326. That is, the wireless communication circuit 41 transmits a control signal for transmitting the control command acquired from the wireless signal and the setting information received from the infrared communication unit 43 from the second connector 432 of the infrared communication unit 43 through the signal cable 326. It is transmitted to the first control unit 321 of the circuit block 32. The printed wiring board 433 is formed in a rectangular flat plate shape. A light receiving element 430, a first connector 431 and a second connector 432 are mounted on the lower surface of the printed wiring board 433. The light receiving element 430 is mounted on the lower surface of the printed wiring board 433 so that the light receiving unit 4300 faces downward.

  The fixing plate 45 has a rectangular plate-shaped main piece 450, and a pair of leg pieces 451 projecting downward from each of two corners of the main piece 450 located at diagonal positions among the four corners. There is. The main piece 450 is provided with a pair of screw holes 4500. Each leg 451 is formed in an L shape. The printed wiring board 433 is screwed to the lower ends of the pair of leg pieces 451.

  The housing 44 includes an upper plate 440, a lower plate 441, a front plate 442, a left side plate 443, a right side plate 444, and a fixing piece 445. The upper plate 440 is formed in a rectangular flat plate shape. The upper plate 440 is provided with two screw insertion holes 4400. The lower plate 441 is formed in a generally U-shape by partially cutting out in a rectangular shape. The lower plate 441 is provided with a pair of screw holes 4410 and a pair of screw insertion holes 4411 at positions facing each other across the notch 446. In addition, a circular light transmitting hole 447 is provided near the front end of the lower plate 441. The front plate 442 is formed in a rectangular flat plate shape, and connects the front end of the upper plate 440 and the front end of the lower plate 441. The left side plate 443 and the right side plate 444 are formed in a rectangular flat plate shape. The left side plate 443 is connected to the left end of each of the upper plate 440, the lower plate 441 and the front plate 442. The right side plate 444 is connected to the respective right ends of the upper plate 440, the lower plate 441 and the front plate 442. In the rear end of the right side plate 444, a semicircular groove 4440 is formed. The fixed piece 445 is formed in a rectangular plate shape. The fixing piece 445 is formed to rise upward from the rear end of the upper plate 440. Circular mounting holes 4450 are respectively provided near both ends in the longitudinal direction (left and right direction) of the fixing piece 445. That is, the housing 44 is formed in a box shape in which the surface (rear surface) facing the front plate 442 along the front-rear direction is opened. The housing 44 is preferably formed of a metal plate.

  The body 420 of the wireless communication unit 40 is accommodated in the housing 44 in a state in which the wireless communication circuit 41 is accommodated. The body 420 is screwed to the lower plate 441 of the housing 44 by two screws 425 inserted into the screw insertion holes 4411. However, the antenna 410 of the wireless communication circuit 41 protrudes to the outside (downward) of the housing 44 through the notch 446. The screw 46 inserted into each through hole 4220 of the lid 422 is screwed into each screw hole 4410 of the lower plate 441 in a state where the hooking piece 424 of the cover 421 is hooked to the front end of the notch 446 in the lower plate 441 The cover 421 is attached to the lower plate 441. At this time, the antenna 410 protruding from the notch 446 to the outside of the housing 44 is housed in the antenna housing portion 423 of the cover 421.

  The fixing plate 45 is screwed to the upper plate 440 of the housing 44 by screwing the screws 47 inserted through the screw insertion holes 4400 of the upper plate 440 into the screw holes 4500 of the main piece 450 of the fixing plate 45. . That is, in the housing 44, the infrared communication unit 43 is fixed to the upper plate 440 by the fixing plate 45. At this time, the light receiving portion 4300 of the light receiving element 430 and the light transmitting hole 447 of the lower plate 441 are opposed along the thickness direction (vertical direction) of the lower plate 441 (see FIG. 6). That is, the light receiving unit 4300 of the light receiving element 430 can receive an infrared signal through the light transmitting hole 447 of the lower plate 441.

  The housing 44 is attached to the connecting portion 18 of the arm 15. That is, the housing screw 44 is screwed into the corresponding screw hole of the pair of screw holes provided in the front connecting portion 18 by inserting the mounting screw 48 inserted into each mounting hole 4450 of the fixing piece 445. It attaches to the connection part 18 (refer FIG. 4).

  The lighting fixture 1 is electrically connected to an AC power supply 7 by a pair of power supply lines 70 (see FIG. 8). It is preferable that a plurality of lighting fixtures 1 be electrically connected in parallel to the pair of power supply lines 70. However, it is preferable that the pair of power supply lines 70 serving as a power supply path from the AC power supply 7 to each lighting fixture 1 be configured to be disconnectable by the switch device 8. The switch device 8 is configured to switch between a state in which the feed path is disconnected (off state) and a state in which the feed path is not disconnected (on state) each time the operation unit 80 is operated. And each lighting fixture 1 lights (or it will be in the lighting possible state), when the switch apparatus 8 is an ON state, and each lighting fixture 1 turns off when the switch apparatus 8 is an OFF state.

  As shown in FIG. 8, the control device 6 includes a wireless communication unit 60, a second control unit 61, a second storage unit 62, an operation input unit 63, a display unit 64, and a power supply unit 65. Is preferred. The wireless communication unit 60 modulates the carrier wave of the wireless signal with the transmission frame including the command (command) and identification information (ID data) given from the second control unit 61, and transmits the modulated carrier wave as a wireless signal from the antenna Is configured as. The wireless communication unit 60 is preferably configured to transmit a wireless signal by using, for example, a 920 MHz band radio wave as a medium (carrier wave). The second control unit 61 includes, for example, a microcontroller and a program executed by the microcontroller. The power supply unit 65 generates the operation power supply of each unit such as the wireless communication unit 60 and the second control unit 61 by converting the AC power supplied from the external power supply (AC power supply 7) into DC power. .

  The operation input unit 63 has an input device such as a push button switch or a touch sensor. When the operation input unit 63 receives an operation input by the push button switch or the touch sensor, the operation input unit 63 outputs an operation signal corresponding to the received operation input to the second control unit 61. The display unit 64 has a display device such as a light emitting diode or a liquid crystal display. The display unit 64 is configured to display various information, such as an operation mode of the second control unit 61, by being driven by the second control unit 61. Similar to the first storage unit 322, the second storage unit 62 is configured of an electrically rewritable nonvolatile semiconductor memory such as a flash memory or an EEPROM. The second storage unit 62 stores, for example, identification information (ID data) of itself.

  The control device 6 has a main body 66 made of synthetic resin, as shown in FIG. The main body 66 is formed in a flat rectangular box shape. The main body 66 accommodates the wireless communication unit 60, the second control unit 61, the second storage unit 62, the operation input unit 63, the display unit 64, and the power supply unit 65 inside. A power cable 67 is drawn from the lower surface of the main body 66. A power plug 68 is provided at the end of the power cable 67. The power supply unit 65 receives power from the AC power supply 7 through the power plug 68 and the power cable 67 by connecting the power plug 68 to the outlet. On the front surface of the main body 66, the first operation member 630, the second operation member 631 and the third operation member 632 are arranged in the vertical direction. Each of the first operation member 630, the second operation member 631, and the third operation member 632 is configured to be able to press the front surface of the main body 66. Then, when the first operation member 630 disposed at the bottom is pressed, the push button switch corresponding to the first operation member 630 among the plurality of push button switches of the operation input unit 63 is turned on. When the push button switch is turned on by the first operation member 630, the operation input unit 63 transmits an operation signal (first operation signal) for switching the state (lighting state and light off state) of the lighting apparatus 1 to the second control unit 61. Output to Further, when the second operation member 631 disposed at the top is pressed, the push button switch corresponding to the second operation member 631 is turned on among the plurality of push button switches of the operation input unit 63. When the push button switch is turned on by the second operation member 631, the operation input unit 63 sends an operation signal (second operation signal) to the second control unit 61 to raise (brighten) the dimming level of the lighting fixture 1. Output. Furthermore, when the third operation member 632 disposed at the center is pressed, the push button switch corresponding to the third operation member 632 is turned on among the plurality of push button switches of the operation input unit 63. When the push button switch is turned on by the third operation member 632, the operation input unit 63 sends an operation signal (third operation signal) to the second control unit 61 to lower (darken) the dimming level of the lighting fixture 1 Output. A window 660 for transmitting light emitted from the display element (light emitting diode) of the display unit 64 is provided on the front surface of the main body 66 next to the second operation member 631 and the third operation member 632. The window 660 is formed in a rectangular shape whose longitudinal direction is the vertical direction.

  The second control unit 61 generates a transmission frame including a control command corresponding to each of the first operation signal, the second operation signal, and the third operation signal, and identification information unique to the control device 6, and the generated transmission frame To the wireless communication unit 60. The wireless communication unit 60 modulates the transmission frame supplied from the second control unit 61, and transmits the modulated transmission frame as a wireless signal from the antenna.

  Next, with reference to FIG. 8, the procedure in which the lighting fixture 1 installed on the ceiling of a gymnasium or the like is remotely controlled by the transmitter 5 and the control device 6 will be described.

  First, the lighting device 1 and the control device 6 are paired by the transmitter 5. When the operation button 50 of the transmitter 5 is pressed, an infrared signal including setting information for pairing is transmitted from the transmitter 5. The setting information is, for example, identification information assigned to the control device 6 that is the transmission source of the wireless signal. In the remote control unit 4, the infrared communication unit 43 receives an infrared signal to obtain setting information, and the wireless communication circuit 41 of the wireless communication unit 40 receives the setting information received from the infrared communication unit 43 as a memory (for example, electrically It is stored in a rewritable non-volatile semiconductor memory). The wireless communication circuit 41 stores the setting information in the memory, whereby the pairing of the lighting fixture 1 and the control device 6 is completed.

  The wireless communication circuit 41 of the remote control unit 4 receives a wireless signal transmitted from the control device 6 and acquires a transmission frame. The wireless communication circuit 41 collates the identification information included in the transmission frame with the setting information stored in the memory, and if the identification information matches the setting information, the control signal corresponding to the control command included in the transmission frame Generate The wireless communication circuit 41 transmits the generated control signal to the first control unit 321 of the circuit block 32 via the signal cable 326. The first control unit 321 controls the lighting circuit unit 320 based on the control signal received from the wireless communication circuit 41 to blink and dim the light source unit 2.

  On the other hand, if the identification information included in the transmission frame does not match the identification information stored in the memory, the wireless communication circuit 41 discards the transmission frame and does not generate a control signal. That is, the wireless communication circuit 41 is configured to receive only the transmission frame (control command) transmitted from the paired control device 6 even though it can receive wireless signals from a plurality of control devices. . When the control signal is included in the infrared signal transmitted from the transmitter 5, the wireless communication circuit 41 generates a control signal corresponding to the control command included in the infrared signal and sends the control signal to the first control unit 321. It may be transmitted.

  Here, in the lighting device 1, the remote control unit 4 is attached to the connecting portion 18 of the arm 15 instead of the device body 10. If the lighting fixture 1 is fixed to a construction (for example, the ceiling of a gymnasium) by the fixed part 17 of the arm 15, the wireless communication unit 40 of the remote control unit 4 receives a wireless signal, and the infrared communication unit 43 It can receive a signal. That is, unlike the conventional example described in Patent Document 1, the lighting fixture 1 can be constructed without work on the remote control unit 4. Therefore, compared with the prior art example of patent document 1, the lighting fixture 1 can aim at the improvement of workability | operativity of construction work, enabling remote control. The content of remote control by the remote control unit 4 is not limited to blinking and dimming of the light source unit 2. For example, the instrument body 10 is provided with a mechanism for rotating the mounting portion 16 of the arm 15 by a motor, and the remote control unit 4 remotely controls the attitude of the instrument body 10 with respect to the arm 15 by adjusting the rotation amount of the motor. It does not matter.

  Further, the remote control unit 4 attached to the connecting portion 18 of the arm 15 is positioned above the light source unit 2 attached below the instrument main body 10, whereby the illumination light of the light source unit 2 is accommodated in the housing 44. It is difficult to enter the housing 44 through the light transmission hole 447 of the Therefore, the lighting device 1 can receive the infrared signal transmitted from the transmitter 5 by the light receiving element 430 even in the state in which the light source unit 2 is lit. As a result, the lighting device 1 can improve the communication accuracy of infrared communication in the infrared communication unit 43.

  Furthermore, in the luminaire 1, the connecting portion 18 of the arm 15 is disposed behind the remote control unit 4 (see FIG. 1). Therefore, the infrared signal transmitted toward the second lighting device 1 installed at the rear of the first lighting device 1 is easily blocked by the connecting portion 18 of the arm 15 in the first lighting device 1. . As a result, it is possible to reduce the possibility that the remote control unit 4 of the first lighting device 1 receives the infrared signal transmitted to the second lighting device 1 by mistake.

  Moreover, since the housing 44 is attached to the connection part 18 so that the lighting fixture 1 may be arrange | positioned on the outer side of the tool main body 10 seeing from the connection part 18, when it is arrange | positioned inside the tool main body 10 seeing from the connection part 18 This can further improve the reception sensitivity of the infrared signal.

  By the way, it is preferable that the power supply device 3 be disposed between the two coupling portions 18, that is, on the instrument body 10. As described above, when the power supply 3 is disposed between the two coupling portions 18, the housing 44 of the remote control unit 4 attached to the outside of the tool body 10 viewed from the coupling portion 18 and the power supply 3 are separated. It can be arranged. As the distance between the remote control unit 4 and the power supply device 3 is increased, the remote control unit 4 is less susceptible to noise (unnecessary radiation) and heat generated by the power supply device 3.

  Further, in the lighting device 1, the wireless communication unit 40 is accommodated in the housing 44 together with the infrared communication unit 43. Therefore, as compared with the case where the wireless communication unit 40 is accommodated in the case 30 of the power supply device 3, the range in which the antenna 410 can catch radio waves is expanded, so that the reception sensitivity of the wireless signal is improved. Can be

  Furthermore, the wireless communication unit 40 is preferably disposed at a position where the distance between the tool body 10 and the wireless communication unit 40 is larger than the distance between the tool body 10 and the power supply 3. Specifically, the remote control unit 4 has an arm 15 so that the bottom surface of the antenna housing portion 423 protruding from the lower surface of the housing 44 is above the upper surface of the top plate 300 of the case 30 when viewed from the instrument body 10. It may be attached to In this case, since the wireless signal is less likely to be shielded by the metal case 30, the wireless communication circuit 41 can easily receive the wireless signal transmitted from the control device 6.

  Here, in the luminaire 1, the arm 15, which is a support member, is formed in a U shape having the attachment portions 16 at both ends in the longitudinal direction. However, the luminaire 1 may include two support members (arms). Preferably, the two arms are each formed in an L shape. The fixing portion of each arm preferably protrudes outward (in a direction away from the tool body 10) from the upper end of the connecting portion. The housing 44 of the remote control unit 4 is preferably attached to one of the two arms.

  As described above, the luminaire 1 supports the light source (light source unit 2), the power supply 3 for lighting the light source unit 2, the instrument main body 10 for holding the light source unit 2 and the power source 3, and the instrument main body 10 And a member (arm 15). The luminaire 1 includes a remote control unit 4 that receives control commands for remotely controlling the power supply 3. The one or more arms 15 have an attachment portion 16 attached to the side surface of the tool body 10, a fixing portion 17 fixed to a construction, and a connecting portion 18 connecting the mounting portion 16 and the fixing portion 17 There is. The remote control unit 4 includes a wireless communication unit 40 that performs wireless communication, an infrared communication unit 43 that performs infrared communication, and a housing 44 that accommodates the infrared communication unit 43. The housing 44 is attached to the connecting portion 18.

  The lighting fixture 1 can receive a wireless signal by the wireless communication unit 40 of the remote control unit 4 and receive an infrared signal by the infrared communication unit 43 if fixed to a construction by the fixing unit 17 of the arm 15 . That is, unlike the conventional example described in Patent Document 1, the lighting fixture 1 can be constructed without work on the remote control unit 4. Therefore, compared with the prior art example of patent document 1, the lighting fixture 1 can aim at the improvement of workability | operativity of construction work, enabling remote control.

  In the lighting device 1, the housing 44 is preferably attached to the connecting portion 18 so as to be disposed outside the device body 10 as viewed from the connecting portion 18.

  Since the lighting fixture 1 is configured as described above, the reception sensitivity of the infrared signal can be improved as compared to the case where the lighting fixture 1 is disposed inside the fixture main body 10 as viewed from the connection portion 18.

  In the lighting fixture 1, the arm 15 preferably has two mounting portions 16 and two connecting portions 18. The power supply 3 is preferably disposed between the two coupling portions 18.

  Since the lighting fixture 1 is configured as described above, the housing 44 of the remote control unit 4 attached to the outside of the fixture main body 10 viewed from the connection portion 18 and the power supply device 3 can be separated. Therefore, as the distance between the remote control unit 4 and the power supply device 3 is increased, the lighting fixture 1 can make it difficult for the remote control unit 4 to be affected by noise (unnecessary radiation) or heat generated by the power supply device 3.

  In the lighting device 1, the wireless communication unit 40 is preferably accommodated in the housing 44.

  Since the lighting fixture 1 is configured as described above, the range in which the radio communication unit 40 can capture radio waves becomes wider than when the radio communication unit 40 is housed in the case 30 of the power supply device 3. Therefore, it is possible to improve the reception sensitivity of the wireless signal.

  In the lighting device 1, the wireless communication unit 40 is preferably disposed at a position where the distance between the device body 10 and the wireless communication unit 40 is larger than the distance between the device body 10 and the power supply 3.

  Since the luminaire 1 is configured as described above, it becomes difficult for the power supply device 3 to shield the radio signal, so that the sensitivity of receiving the radio signal can be improved.

  In the luminaire 1, it is preferable that the arm 15 be formed in a U-shape having the attachment portions 16 at both ends in the longitudinal direction.

  Since the lighting fixture 1 is configured as described above, the fixture body 10 can be attached to a construction by one support member (arm 15), and the number of parts can be reduced.

1 Lighting fixture 2 Light source unit (light source)
3 Power Supply Device 4 Remote Control Unit 10 Instrument Body 15 Arm (Support Member)
DESCRIPTION OF SYMBOLS 16 mounting part 17 fixing | fixed part 18 connection part 40 radio | wireless communication part 43 infrared rays communication part 44 housing

Claims (6)

Light source,
A power supply device for lighting the light source;
An instrument body for holding the light source and the power supply device;
A support member for supporting the device body;
A remote control unit that receives control commands for remote control of the power supply device;
The support member is
An attaching portion attached to a side surface of the device body;
A fixed part fixed to the construction,
It has a connecting part which connects the attaching part and the fixing part,
The remote control unit
A wireless communication unit that performs wireless communication;
An infrared communication unit that performs infrared communication,
And a case for housing the infrared communication unit,
The said housing is attached to the said connection part, The lighting fixture characterized by the above-mentioned. The lighting fixture according to claim 1, wherein the housing is attached to the connection portion so as to be disposed outside the fixture body as viewed from the connection portion. The support member has the attachment portion and the connection portion two each.
The said power supply device is arrange | positioned between two said connection parts, The lighting fixture of Claim 1 or 2 characterized by the above-mentioned. The said wireless communication part is accommodated in the said housing | casing, The lighting fixture of any one of the Claims 1-3 characterized by the above-mentioned. The said wireless communication part is arrange | positioned in the position where the distance of the said instrument main body and the said wireless communication part becomes large rather than the distance of the said instrument main body and the said power supply device. The luminaire as described in 1 or 2. The said support member is formed in a U-shape which has the said attaching part in the both ends of a longitudinal direction, The lighting fixture of any one of the Claims 1-5 characterized by the above-mentioned.

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