WO2010061827A1 - 照明装置 - Google Patents
照明装置 Download PDFInfo
- Publication number
- WO2010061827A1 WO2010061827A1 PCT/JP2009/069817 JP2009069817W WO2010061827A1 WO 2010061827 A1 WO2010061827 A1 WO 2010061827A1 JP 2009069817 W JP2009069817 W JP 2009069817W WO 2010061827 A1 WO2010061827 A1 WO 2010061827A1
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- lighting
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/175—Controlling the light source by remote control
- H05B47/185—Controlling the light source by remote control via power line carrier transmission
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/30—Driver circuits
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/30—Driver circuits
- H05B45/357—Driver circuits specially adapted for retrofit LED light sources
- H05B45/3578—Emulating the electrical or functional characteristics of discharge lamps
Definitions
- the present invention relates to an illumination device and an illumination lamp used for the illumination device.
- Patent Document 2 when a certain life time elapses from the start of use of each fluorescent lamp by communication with an IC tag seal attached to each of a large number of fluorescent lamps and a single IC tag reader / writer that covers all the inside of the building with electromagnetic wave communication, It has been proposed to automatically notify the exchange (Patent Document 2). In addition, it has also been proposed that dimming control of a large number of fluorescent lamps each having a dimming type inverter is performed by a single dimming controller through power line communication (Patent Document 3).
- an object of the present invention is to provide a lighting device that can be used in accordance with the situation.
- a lighting device disclosed in the present specification includes a lighting fixture that uses an LED lighting lamp as a light source, and remotely controls lighting of the LED lighting lamp, and the LED lighting from the lighting fixture. And a remote control device that remotely receives information related to lamp replacement timing (first configuration).
- the illuminating device having the first configuration may have a configuration (second configuration) in which the storage unit that stores information related to the replacement timing of the LED lighting lamp is provided in the lighting fixture.
- the LED illumination lamp is configured to be detachable from the illumination fixture, and the storage unit stores information on the replacement time when the LED illumination lamp is mounted. (Third configuration) is preferable.
- the LED illumination lamp is configured to be detachable from the illumination fixture, and obtains information on the replacement time held by the LED illumination lamp from the LED illumination lamp.
- the part may be configured to be provided in the lighting fixture (fourth configuration).
- the control route from the control unit to the lighting fixture and the transmission route of information regarding the replacement timing of the LED lighting from the lighting fixture to the receiving unit are common.
- a configuration (fifth configuration) is preferable.
- the lighting device having the fifth configuration may have a configuration (sixth configuration) in which the control route and the transmission route are power lines.
- the control route is a switch control signal transmission route for controlling on / off of the LED illumination light, and the switch control signal transmission route relates to a replacement timing of the LED illumination light.
- a configuration (seventh configuration) may also be used as an information transmission route.
- the LED illumination lamp is configured to be detachable from the illumination fixture, and the illumination fixture is a memory for storing information relating to the replacement timing of the LED illumination lamp.
- a control unit that stores information on the replacement time in the storage unit by mounting the LED lighting light, and a transmission unit that transmits information on the replacement time of the LED lighting light stored in the storage unit to the outside.
- the LED illumination lamp is configured to be detachable from the illumination fixture, and the illumination fixture transmits information on the replacement timing of the LED illumination lamp to the LED illumination lamp. It is good to make it into the structure (9th structure) which has the acquisition part acquired from, and the transmission part which transmits the information regarding the replacement time of the said LED illuminating lamp which the said acquisition part acquired to the exterior.
- the remote control device may have a configuration (tenth configuration) having a display unit that performs display based on the received information regarding the replacement timing of the LED illumination lamp.
- the display unit performs display based on information related to the replacement timing of the LED illumination lamp in connection with remote control of lighting of the LED illumination lamp (an eleventh configuration). Configuration).
- the remote control device receives information on the replacement timing of the LED lighting lamp from the lighting fixture when the LED lighting lamp is not lit (twelfth configuration). It is good to.
- the remote control device controls the LED illuminating lamp to a non-lighting state prior to reception of information regarding the replacement timing of the LED illuminating lamp by the receiving unit ( A thirteenth configuration is preferable.
- the control device controls the LED illumination lamp to be in a lighting state after receiving information on the replacement timing of the LED illumination lamp by the reception unit (fourteenth configuration). ).
- the lighting device disclosed in the present specification includes a lighting fixture that uses an LED lighting lamp as a light source, a receiving unit that receives information about the replacement timing of the LED lighting lamp from the lighting fixture, and a function of the receiving unit It is set as the structure (15th structure) which has a control apparatus provided with the confirmation part which confirms automatically.
- the control device includes a control unit that remotely controls the lighting of the LED illumination lamp, and the lighting control of the LED illumination lamp by the control unit.
- a configuration (sixteenth configuration) may be employed that automatically receives information regarding the replacement timing of the LED lighting from a lighting fixture.
- control device may have a configuration (a seventeenth configuration) including a display unit that displays an automatic confirmation result of the function of the reception unit.
- the lighting device disclosed in the present specification receives a lighting fixture that uses an LED lighting lamp as a light source and information on the replacement timing of the LED lighting lamp from the lighting fixture when the LED lighting lamp is not lit.
- a control device including a receiving unit (eighteenth configuration).
- the control device includes a control unit that controls the LED illumination lamp to be in a non-lighting state prior to reception of information regarding the replacement timing of the LED illumination lamp by the reception unit. It is preferable to have the configuration (19th configuration).
- the control device includes a control unit that controls the LED illumination lamp to be in a lighting state after receiving information on the replacement timing of the LED illumination lamp by the reception unit ( The twentieth configuration may be used.
- FIG. 1st Example of the illumination system of this invention containing a LED illumination lamp tube It is a block diagram which shows 2nd Example of the illumination system of this invention containing a LED illumination lamp tube. It is a block diagram which shows the detail of communication by the switch control line in 2nd Example of FIG.
- 2nd Example of the illumination system of this invention It is a block diagram which shows 3rd Example of the illumination system of this invention containing an LED illumination lamp tube.
- 3rd Example of the illumination system of this invention containing an LED illumination lamp tube It is a block diagram which shows 3rd Example of the illumination system of this invention containing an LED illumination lamp tube.
- FIG. 1 is a perspective view of a long tube fluorescent lamp type LED illumination lamp tube according to an embodiment of the present invention.
- the LED illumination lamp tube 2 of the present invention has the same appearance as a normal long tube fluorescent lamp tube, and has a long tube portion 4 made of polycarbonate manufactured by extrusion molding and cap portions 6 and 8 at both ends thereof. Yes.
- the LED lighting lamp tube of the present invention can be mounted on a lighting device of a normal long fluorescent tube.
- FIG. 2 is a partial perspective view showing the internal configuration of FIG. 1, and the same parts are denoted by the same reference numerals.
- the long tube portion 4 is shown to be transparent and the internal configuration can be seen.
- the actual long tube portion 4 is diffusely permeable milky white and has an internal structure. I can't see it.
- the white LEDs 10, 12, 14, etc. are fixed to the substrate part 16, and their light emission directions are fixed in a predetermined angular relationship with the directions of the two connection pins 18, 20. Accordingly, for example, when the two connection pins 18 and 20 are attached to the lighting fixture so as to be in the horizontal direction, the light emitting directions of the white LEDs 10, 12 and 14 and the like are directed downward.
- a heat radiating plate 22 made of aluminum or the like is disposed on the back side of the substrate portion 16 to prevent the white LEDs 10, 12, 14 and the like from generating heat and reducing the light emission efficiency.
- FIG. 3 is a block diagram showing a first embodiment of the illumination system of the present invention including the LED illumination lamp tube 2 shown in FIGS.
- the lighting system includes a lighting fixture 34 provided on the ceiling of the workplace 32, a hand controller 36 for controlling on / off of the lighting fixture 34, and the like.
- the work place 32 has a high ceiling and is in an environment where maintenance of the lighting fixture 34 and replacement of the LED lighting tube 2 are not easy.
- the luminaire 34 and the hand controller 36 are supplied with power from a power line 38.
- the power line 38 is also a signal communication path by power line communication (PLC).
- PLC power line communication
- the LED lighting tube 2 that is detachably mounted on the lighting fixture 34 has the structure shown in FIGS. In FIG. 3, the LED illumination lamp tube 2 is mounted, but the luminaire 34 can be mounted with a normal long tube fluorescent lamp tube instead of the LED illumination lamp tube 2.
- the LED lighting lamp tube 2 is supplied with power for lighting from the power source 42 via the PLC branching / synthesizer 40 from the power line 38.
- the luminaire control unit 44 is fed with power from the power supply unit 42 and controls the power supply unit 42 in response to an on / off signal demultiplexed by the PLC demultiplexing / synthesizing unit 40 from the power line 38 to thereby control the LED illumination lamp tube. 2 is turned on or off.
- This on / off signal is synthesized from the hand controller 36 to the power line 38 and transmitted to the lighting fixture 32 via the power line 38.
- the hand control unit 46 of the hand controller 36 detects an on / off manual operation of the operation unit 48, and synthesizes this on the power line 38 by the PLC demultiplexing unit 50.
- FIG. 3 the distribution of power between the blocks described above is illustrated by thick arrows, and the exchange of signals is illustrated by thin arrows. Further, between the power line 38 and the PLC demultiplexing / synthesizing unit 40, both power transmission and signal exchange are performed through the same power line. Is shown. This illustrated rule is common in the following description.
- the work place 32 has a high ceiling and is in an environment where maintenance of the lighting fixture 34 and replacement of the lighting lamp tube are not easy.
- the LED illumination lamp tube 2 having a much longer life than a normal fluorescent lamp tube does not need to be replaced for a long time, and is optimal for use in such an environment.
- the maintenance-free state continues for a long period of time, there is a high possibility that the memory or record related to the previous replacement will be lost, and how to manage the next replacement time becomes a problem.
- each individual long tube fluorescent lamp type LED lighting tube 2 when each individual long tube fluorescent lamp type LED lighting tube 2 is mounted on the lighting fixture 32, it is mechanically fixed.
- a mechanical replacement sensor 52 to be detected is provided in each mounting portion of the lighting fixture 32.
- the installation detection of the long tube fluorescent lamp type LED lighting lamp tube 2 by the mechanical replacement sensor 52 is transmitted to the lighting fixture controller 44.
- the luminaire control unit 44 communicates with the hand control unit 46 via the power line 38 and obtains the output of the current date information obtained from the clock 54.
- the luminaire control unit 44 receives the date information via the power line 38, and stores the received date information and the ID of the mechanical replacement sensor 52 in the replacement time information nonvolatile memory 56.
- each long tube fluorescent lamp type LED lighting tube 2 is stored in the lighting fixture 32.
- the long tube fluorescent lamp type LED lighting lamp tube 2 that does not have a lamp can be replaced, and versatility is enhanced.
- the hand control unit 46 When the operation unit 48 performs an operation of checking the replacement time of a specific long tube fluorescent lamp type LED lighting lamp tube 2 by specifying the ID of the mechanical replacement sensor 52, the hand control unit 46 performs illumination via the power line 38.
- the replacement date information of the long tube fluorescent lamp type LED lighting lamp tube 2 corresponding to the mechanical replacement sensor 52 designated from the replacement time information nonvolatile memory 56 is read out to the power line 38 by communicating with the appliance control unit 44. Is output.
- the hand control unit 46 receives this, compares it with the current date information of the clock 54, and displays it on the display unit 58 if the replacement time has come.
- the power supply unit 60 supplies the power supplied from the power line 38 via the PLC demultiplexing / combining unit 50 to the hand control unit 46 and the display unit 58.
- FIG. 4 is a block diagram showing a second embodiment of the illumination system of the present invention including the LED illumination lamp tube 2 shown in FIG. 1 and FIG. Since the structure has many parts similar to those in FIG. 3, the same parts are denoted by the same reference numerals, and description thereof is omitted unless necessary. Further, although the details are different, the parts corresponding to the functions in FIG. 3 are given the numbers of the hundreds and the correspondence is shown with the last two digits being the same number.
- the second embodiment of FIG. 4 differs from the first embodiment of FIG. 3 in that communication between the lighting fixture 134 and the hand controller 136 is not power line communication via the power line 138 but power line communication via the switch control line 202. That is.
- the switch control line 202 is not a general-purpose power line 138, but when the switch is turned on, the switch control line 202 becomes a part of a power supply path to the lighting fixture 134. Therefore, in this specification, it is called power line communication in a broad sense. To do. Details of the difference will be described later.
- the on / off signal of the luminaire 34 is transmitted via a general-purpose power line 38, and there is no switch control line dedicated to the luminaire 34.
- the on / off signal of the lighting fixture 34 is sent by a dedicated switch control line 202. More specifically, a part of the power supply path from the power line 138 to the long tube fluorescent lamp type LED lighting lamp tube 2 is drawn out in the power supply unit 142 in the same manner as a normal lighting fixture, and is switched to the switch 204 by the switch control line 202. It is connected.
- the switch 204 when the switch 204 is turned on, the power supply path from the power line 138 to the long tube fluorescent lamp type LED illumination lamp tube 2 is closed, the long tube fluorescent lamp type LED illumination lamp tube 2 is turned on, and when the switch 204 is turned off.
- the feeding path is opened, and the long tube fluorescent lamp type LED illumination lamp tube 2 is turned off.
- the PLC demultiplexing / combining unit 206 is provided between a portion where the switch control line 202 is drawn into the lighting fixture 134 and the power supply unit, and combines the signal from the lighting fixture control unit 144 with the switch control line 202 and also on the switch control line. Is demultiplexed and sent to the luminaire controller 144.
- the PLC demultiplexing / combining unit 208 is provided between the switch 204 and the portion where the switch control line 202 is drawn into the hand controller 136, and combines the signal from the hand control unit 146 with the switch control line 202 and switch control. The signal on the line is demultiplexed and sent to the hand control unit 146.
- the hand control unit 146 of the hand controller 136 detects an on / off manual operation of the operation unit 48 and turns on / off the switch 204 based on the result.
- the power supply path from the power line 138 to the long tube fluorescent lamp type LED illumination lamp tube 2 is opened and closed, and the long tube fluorescent lamp type LED illumination lamp tube 2 is turned on or off.
- communication between the luminaire control unit 144 and the hand control unit 146 for writing the replacement date information in the nonvolatile memory 56 at the time of detecting the attachment of the long tube fluorescent lamp type LED lighting lamp tube 2, and the operation unit 48 Communication between the luminaire control unit 144 and the hand control unit 146 for checking the replacement time based on the operation is performed via the switch control line 202 via the PLC demultiplexing synthesis unit 206 and the PLC demultiplexing synthesis unit 208.
- FIG. 5 is a block diagram for the purpose of showing details of power line communication by the switch control line 202 in the second embodiment of FIG. 4, and corresponding components are denoted by the same reference numerals. Further, in FIG. 5, illustration of a part not related to the above-described purpose in the configuration of FIG. 4 is omitted.
- the power line drawn from the power line 138 has a first line 212 directly connected to the long tube fluorescent lamp type LED lighting lamp tube 2, whereas a second line 214 is connected to the power line 142 at the second line 214. It is drawn out as a first switch control line 216 and a second switch control line 218 and is connected to the switch 204.
- the switch 204 when the switch 204 is closed, the first switch control line 216 and the second switch control line 218 are connected to light the long tube fluorescent lamp type LED lighting lamp tube 2 and when the switch 204 is opened, the first switch The connection between the control line 216 and the second switch control line 218 is cut off, and the long tube fluorescent lamp type LED illumination lamp tube 2 is turned off.
- the PLC demultiplexing units 206 and 208 transmit only the high frequency components of the first switch control line 216 and the second switch control line 218 to the luminaire control unit 144 and the hand control unit 146, respectively. Communication between the instrument control unit 144 and the hand control unit 146 becomes possible. However, since the first switch control line 216 and the second switch control line 218 have the same potential when the switch 204 is closed, communication is performed between the first switch control line 216 and the second switch control line 218 by opening the switch 204. Is cut off, and the long tube fluorescent lamp type LED lighting tube 2 is turned off.
- FIG. 6 is a block diagram showing a third embodiment of the illumination system of the present invention including the LED illumination lamp tube 2 shown in FIG. 1 and FIG. Since the structure has many parts similar to those in FIG. 3, the same parts are denoted by the same reference numerals, and description thereof is omitted unless necessary. Further, although the details are different, the parts corresponding to the functions in FIG. 3 are given the numbers in the 300s and the lower two digits are the same numerals to show the correspondence.
- the configuration of the hand controller 336 in the third embodiment of FIG. 6 is the same as that of the first embodiment of FIG.
- the replacement time information IC tag 402 is built in the long tube fluorescent lamp type LED lighting lamp tube 302, and an IC tag reader / writer 404 for reading and writing the information in a non-contact manner is provided in the lighting fixture 334. ing.
- the replacement time information IC tag 402 is input with the ID and date of manufacture of the long tube fluorescent lamp type LED illumination lamp tube 302 at the time of shipment.
- the hand control unit 46 when the operation unit 48 performs an operation of designating the ID of the long tube fluorescent lamp type LED illumination lamp tube 302 and checking the replacement time, the hand control unit 46 illuminates the lighting fixture via the power line 38. Communicating with the control unit 44, the manufacturing date information of the long tube fluorescent lamp type LED lighting lamp tube 2 is read from the replacement time information IC tag 402 by the IC tag reader / writer 404 and output to the power line 38. The hand control unit 46 receives this, compares it with the current date information of the clock 54, and displays it on the display unit 58 if the replacement time has come.
- the determination of the replacement time in the third embodiment is performed on the basis of the time of shipment rather than the actual start of use of the long tube fluorescent lamp type LED illumination lamp tube 302.
- replacement management is performed so that the difference between the shipment time and the use start time does not matter.
- the long tube fluorescent lamp type LED lighting lamp tube 302 purchased in advance is stored without being used for a long period of time, the long tube fluorescent lamp type LED lighting lamp tube 302 has a long life and cannot be lit suddenly. Therefore, management on the premise that there is no such long-term stock is possible.
- the transmission of the replacement timing information in the third embodiment of FIG. 6 is not limited to that by the power line 38, but is configured by power line communication via the switch control line 202 as in the second embodiment of FIGS. May be.
- the configuration that communicates at the time of switch-off described in FIG. 5 is meaningful in reading the information of the IC tag in a non-contact manner without being affected by noise during the lighting of the long tube fluorescent lamp type LED illumination lamp tube 302. is there.
- FIG. 7 is a block diagram showing a third embodiment of the illumination system of the present invention including the LED illumination lamp tube 2 shown in FIG. 1 and FIG.
- the same parts as those in the embodiments described so far are denoted by the same reference numerals, and the description thereof is omitted unless necessary.
- the parts common to the previous embodiments are given numbers in the 500s and the two lower digits are the same and the correspondence is shown.
- the replacement time information nonvolatile memory 602 is built in the long tube fluorescent lamp type LED illumination lamp tube 502, and the ID and date of manufacture at the time of shipment are the same as in the third embodiment shown in FIG. The day is entered.
- the long tube fluorescent lamp type LED lighting lamp tube 502 further includes a PLC synthesizing unit 606 for reading out the manufacturing date information of the replacement time information nonvolatile memory 602 and synthesizing it with the power line 604.
- the hand controller 536 in the fourth embodiment of FIG. 7 has a switch 204 connected to the switch control line 202 drawn from the power supply unit 542 of the lighting fixture 534, as in the second embodiment of FIG.
- a switch 204 connected to the switch control line 202 drawn from the power supply unit 542 of the lighting fixture 534, as in the second embodiment of FIG.
- the communication between the hand controller 536 and the luminaire 534 is performed not via the switch control line 202 but via the power line 38 in the same manner as in the first embodiment of FIG.
- the power supply unit 60 is connected to the power line 38 via the PLC branching unit 550.
- the hand control unit 546 when an operation for specifying the ID of the long tube fluorescent lamp type LED lighting lamp tube 502 and checking the replacement time is performed by the operation unit 48, the hand control unit 546 is connected via the power line 38. To obtain information from the lighting fixture 534. Specifically, the manufacturing date information in the long tube fluorescent lamp type LED illumination lamp tube 502 of the corresponding ID output from the PLC synthesis unit 606 to the power line 38 is fetched from the PLC demultiplexing unit 550. The hand control unit 546 compares the fetched manufacturing date / time information with the current date / time information of the clock 54 and displays it on the display unit 58 if the replacement time has come.
- the replacement time is determined based on the time of shipment, not the time of actual use of the long tube fluorescent lamp type LED lighting tube 502. .
- the lighting fixture 534 since the configuration for outputting information is built in the long tube fluorescent lamp type LED lighting tube 502, the lighting fixture 534 has a special configuration for managing the replacement time. It becomes unnecessary and can also be implemented with a conventional lighting fixture.
- FIG. 8 is a block diagram for the purpose of showing details of the power line communication in the fourth embodiment of FIG. 7, and corresponding components are denoted by the same reference numerals. Also, in FIG. 8, the illustration of the part not related to the above purpose in the configuration of FIG. 7 is omitted.
- the first line 212 of the power line drawn from the power line 38 is directly connected to the light emission main part 702 of the long tube fluorescent lamp type LED illumination lamp tube 502, whereas the second line The line 214 is drawn out as a first switch control line 216 and a second switch control line 218 in the power supply unit 542, and is connected to the light emitting main unit 702 through the switch 204. In this manner, it is possible to control the lighting or extinguishing of the long tube fluorescent lamp type LED illumination lamp tube 502 in accordance with the opening and closing of the switch 204 as in FIG.
- the PLC synthesizing unit 606 and the PLC demultiplexing unit 550 synthesize and demultiplex only the high-frequency signal component into the power line 38, respectively. Since the second line 214 of the power line 38 is connected to the switch 204 as described above, if the switch 204 is open, a signal line from the PLC combining unit 606 to the power line 38 cannot be secured as it is. Therefore, a high frequency coupler 704 for transmitting only a high frequency is provided between the first switch control line 216 and the second switch control line 218, the switch 204 is opened, and the long tube fluorescent lamp type LED lighting lamp tube 502 is turned off. Even in such a state, the date information can be output to the power line 38. Since such a high-frequency coupler 704 can also be disposed in the hand controller 536, the lighting fixture 534 does not require a special configuration for managing the replacement time, and can be implemented with a conventional lighting fixture. Yes.
- FIG. 9 is a flowchart of functions of the hand control units 46, 146, 546, etc. in the above embodiment.
- the flow starts when the operation unit 48 of the hand controller is operated in a state in which the long tube fluorescent lamp type LED illumination lamp tubes 2, 302, 502 and the like are turned off.
- step S2 it is checked whether or not there is a record to the effect that the replacement time has come in the past lighting. A function for performing such recording will be described later. If there is no record, the process proceeds to step S4 to check whether the operation of the operation unit 48 is a lighting operation. If it is a lighting operation, lighting of the long tube fluorescent lamp type LED illumination lamp tubes 2, 302, 502, etc. is instructed in step S6.
- step S8 it is checked whether or not an operation of the operation unit 48 has been performed for the replacement confirmation operation for confirming whether or not the long tube fluorescent lamp type LED lighting tube 2, 302, 502, etc. should be replaced. If there is no such operation, the process proceeds to step S10, and it is checked whether or not the operation unit 48 has turned off. If there is no turn-off operation, the process returns to the check for presence / absence of the replacement confirmation operation in step S8, and thereafter, step S8 and step S10 are repeated unless there is a replacement confirmation operation and a turn-off operation. This is an operation during lighting of the long tube fluorescent lamp type LED illumination lamp tubes 2, 302, 502, and the like.
- step S8 If it is detected in step S8 that a replacement confirmation operation has been performed, the process proceeds to step S12 to instruct to turn off the long tube fluorescent lamp type LED illumination lamp tubes 2, 302, 502, etc., and the process proceeds to step S14 to replace the tube. Enter the time confirmation process.
- the contents of step S14 are the acquisition of the date information from the lighting fixture and the comparison with the current date information described above.
- step S16 based on the comparison result, it is checked whether the replacement time has come. If the replacement time has not come, the process proceeds to step S18 to instruct lighting of the long tube fluorescent lamp type LED illumination lamp tubes 2, 302, 502, etc., and the process proceeds to step S10.
- the turn-off in step S12 has the significance of avoiding noise or the like in the subsequent replacement time confirmation process as described above, but the temporary turn-off for such a replacement time confirmation process has not reached the replacement time. Even in such a case, it also has a significance of notification that the confirmation of the replacement time has been surely performed. This is because if there is no change in the apparent lighting, it will not be possible to tell whether the replacement time has not arrived or whether the confirmation has failed. By performing such natural turn-off and re-lighting, it is possible to avoid the trouble of repeating a special display such as “no replacement time has arrived” in a normal state where the replacement time has not yet come.
- step S4 if the operation of the operation unit 48 checked in step S4 is not a lighting operation, it means that the operation is a replacement confirmation operation, and the process directly proceeds to step S14 without instructing the lighting.
- step S14 after the replacement time confirmation process is performed in step S14, if the arrival of the replacement time is not detected in step S16, lighting is instructed in step S18. That is, when the flow is started by the operation of the operation unit 48, if the replacement time has not arrived no matter what the operation is, the process proceeds to step S18 to turn on the long tube fluorescent lamp type LED illumination lamp tubes 2, 302, 502, etc. Is instructed.
- step S16 when the arrival of the replacement time is detected in step S16, the process proceeds to step S20, the display of the replacement recommendation on the display unit 58 is instructed, and the process proceeds to step S18. Also, if there is a replacement time arrival record in step S2, the process directly proceeds to step S20, and a replacement recommendation display is instructed on the display unit 58, and the process proceeds to step S18.
- step S10 If a turn-off operation by the operation unit 48 is detected in step S10, the process proceeds to step S22, and a function test process and a replacement time confirmation process in the replacement time confirmation process are performed.
- the replacement recommendation display is made after a long period of time has passed since the replacement of the long tube fluorescent lamp type LED lighting tubes 2, 302, 502, etc., and the function of the replacement time confirmation processing is maintained until the arrival of the replacement recommendation display. Without the guaranteed guarantee, there is no reliability in the event of an emergency. Therefore, each time the turn-off operation is performed, in step S22, the date / time data reading communication test from the lighting device by the hand controller, the comparison function test by the hand control unit, and the display function test by the display unit are performed. On the other hand, even if there is no manual operation for confirming the replacement, when the replacement time has come, it is automatically displayed, so that a replacement time confirmation process is performed in step S22 every time the turn-off operation is performed.
- step S24 it is first checked in step S24 whether the confirmation function is normal. If it is normal, then in step S26, it is checked whether or not the replacement time has come. As a result, if the replacement time has arrived, the replacement time arrival record is left and the process proceeds to step S30, where the instruction to turn off the long tube fluorescent lamp type LED lighting lamp tubes 2, 302, 502, etc. is given and the flow is ended. .
- the replacement time arrival record remaining at this time is detected in step S2 when the operation unit 48 is operated next. As described above, in the automatic detection after the turn-off operation, even if the arrival of the replacement time is detected, the display is not immediately performed, but the display is executed when the next operation is performed.
- step S26 If the arrival of the replacement time is not detected in step S26, nothing is recorded and the process directly goes to step S30 to instruct turning off and the flow ends.
- step S24 if it is not detected in step S24 that the confirmation function is normal, the process immediately proceeds to step S32, a display instruction for confirmation function abnormality is issued, and the process proceeds to step S30.
- an abnormality in the confirmation function may occur at any time on a daily basis, and if there is an abnormality, it must be dealt with immediately. If an abnormality is detected after the light is turned off, the display is promptly performed.
- a lighting fixture to which the LED lighting can be mounted a control unit for remotely controlling the lighting of the LED lighting, and a timing for replacing the LED lighting from the lighting fixture.
- a lighting device includes a control device that includes a receiving unit that receives information on the device. Thereby, the information regarding the replacement time of the LED illumination light installed in the high ceiling etc. can be grasped
- ⁇ LED lamps have a significantly longer life than ordinary fluorescent lamps and do not require replacement for a long period of time, making them suitable for installation on high ceilings where replacement is not easy.
- the maintenance-free state continues for a long period of time, there is a high possibility that the memory or record relating to the previous replacement will be lost.
- a clear abnormality appears in the lighting state at the end of its life or the lighting cannot be performed, so the necessity for replacement is clearly understood.
- the LED lighting lamp tube is gradually used over a long period of time.
- the user is working in an environment with insufficient illuminance without noticing it, because there is no obvious abnormal state or lighting failure state.
- the above-mentioned characteristics disclosed in the present specification can easily grasp information related to the replacement timing of the LED lighting lamps by using a control device used on a daily basis when using such LED lighting lamp tubes. It can be done.
- the lighting fixture is provided with a storage unit that stores information related to the replacement timing of the LED illuminating lamp.
- a storage unit stores information related to the replacement time, such as date information when the LED illuminating lamp is mounted.
- the luminaire is provided with an acquisition unit that acquires information on the replacement time held by the LED illuminating lamp from the LED illuminating lamp.
- the LED lamp itself has information on the replacement time, it is not necessary to provide a special information storage means in the lighting fixture, and it is sufficient if it can be acquired and transmitted to the control device.
- the instrument configuration is simplified.
- the control line from the control unit to the lighting device and the information transmission line regarding the replacement timing of the LED from the lighting device to the receiving unit are common. is there.
- a power line is shared as a control line and a transmission line.
- a switch control line for controlling turning on / off of the LED lamp is shared as a control line and a transmission line.
- a storage unit for storing information related to the replacement timing of the LED illumination lamp, and information related to the replacement timing stored in the storage unit by mounting the LED illumination lamp.
- an illuminating device including a control unit that causes the transmission unit to transmit information regarding the replacement timing of the LED illuminating lamp stored in the storage unit to the outside.
- an acquisition unit that acquires information about the replacement timing of the LED illumination lamp from the LED illumination lamp, and an exchange timing of the LED illumination lamp acquired by the acquisition unit
- an illumination device including a transmission unit that transmits information to the outside.
- a lighting fixture that can be mounted with an LED lighting lamp, and a receiving unit that receives information on the replacement timing of the LED lighting lamp from the lighting fixture by power line communication are provided.
- a lighting device having a control device is provided.
- an LED illuminator can be exchanged from the luminaire by communication through a luminaire to which the LED illuminator can be mounted and a switch control line for controlling the luminaire.
- a lighting device including a control device including a receiving unit that receives information regarding timing.
- the control device controls the LED illumination lamp to be in a non-lighted state prior to reception of information regarding the replacement timing of the LED illumination lamp by the reception unit.
- the control device automatically controls the LED illumination lamp to be in a lighting state after receiving information related to the replacement timing of the LED illumination lamp by the reception unit.
- a lighting device to which an LED lighting lamp can be mounted, a receiving unit that receives information on the replacement timing of the LED lighting lamp from the lighting fixture, and a function thereof are automatically performed.
- a lighting device having a control device including a confirmation unit for confirming automatically are provided.
- the notification of the replacement time of the LED lighting lamp is after a long time after the LED lighting lamp is mounted, according to the above-mentioned feature of the present invention, the notification may not be disabled at that time.
- a confirmation unit for automatically confirming the function of the reception unit on a daily basis is provided.
- a lighting device having a control device including a receiving unit that automatically receives the signal.
- the notification of the replacement time of the LED lighting lamp will be after a long period of time after the LED lighting lamp is mounted, but during this time, the operation method for checking the replacement time or such a function itself can be dealt with even if it is forgotten.
- a receiving unit that automatically receives information related to the replacement timing of the LED illumination light on a daily basis in conjunction with the lighting control operation of the LED illumination light.
- a lighting device to which an LED lighting lamp can be attached a receiving unit that receives information on the replacement timing of the LED lighting lamp from the lighting fixture, and the received information
- an illuminating device including a determination unit that determines a replacement time based on the control unit and a control unit that includes a storage unit that stores a determination result.
- the notification of the replacement time of the LED lighting lamp is after a long period of time after the LED lighting lamp is mounted, but during that period, it is troublesome for the user to report that the replacement time has not been reached. Therefore, according to the above feature disclosed in the present specification, it is possible to provide a storage unit for storing the determination result of the replacement time, and to notify the determination result at an appropriate time based on the information in the storage unit Like that.
- the LED light emitting unit, the holding unit that holds information about the replacement time, and the transmission that transmits the information about the replacement time held by the holding unit to the lighting fixture is provided.
- the LED illumination lamp which has a part is provided.
- the replacement time held by the LED lighting even if it is a simple transmission means such as a contact type or a close contact cost type Information can be reliably extracted to the outside, and an excessive increase in the cost of LED lighting or lighting fixtures associated with the addition of a replacement time confirmation function can be prevented.
- the present invention is a technique useful for providing a lighting device suitable for various usage situations.
Landscapes
- Circuit Arrangement For Electric Light Sources In General (AREA)
Abstract
Description
34、134、334、534 照明器具
46、48、146、204、546 制御部
46、50、146、208、546、550 受信部
36、136、336、536 制御装置
56 記憶部
52 LED照明灯装着検知部
402、602 LED照明灯内情報保持部
404 取得部
38 電力線
202 スイッチ制御線
44、144 照明器具内制御部
40、44、144、206 送信部
46、146、546 確認部
46、146、546 判断部
46、146、546 判断結果の記憶部
Claims (20)
- LED照明灯を光源とする照明器具と、
前記LED照明灯の点灯を遠隔制御するとともに前記照明器具から前記LED照明灯の交換時期に関する情報を遠隔受信する遠隔制御装置と
を有することを特徴とする照明装置。 - 前記LED照明灯の交換時期に関する情報を記憶する記憶部を前記照明器具に備えたことを特徴とする請求項1記載の照明装置。
- 前記LED照明灯は前記照明器具に着脱可能に構成されるとともに、前記LED照明灯の装着によって前記記憶部は前記交換時期に関する情報を記憶することを特徴とする請求項2記載の照明装置。
- 前記LED照明灯は前記照明器具に着脱可能に構成されるとともに、前記LED照明灯が保持する交換時期に関する情報を前記LED照明灯から取得する取得部を前記照明器具に備えたことを特徴とする請求項1記載の照明装置。
- 前記制御部から前記照明器具への制御ルートと前記照明器具から前記受信部への前記LED照明灯の交換時期に関する情報の伝達ルートが共通であることを特徴とする請求項1記載の照明装置。
- 前記制御ルートと前記伝達ルートが電力線であることを特徴とする請求項5記載の照明装置。
- 前記制御ルートが前記LED照明灯のオンオフを制御するスイッチ制御信号伝達ルートであるとともに、前記スイッチ制御信号伝達ルートが前記LED照明灯の交換時期に関する情報の伝達ルートとして兼用されることを特徴とする請求項5記載の照明装置。
- 前記LED照明灯は前記照明器具に着脱可能に構成されるとともに、前記照明器具は、前記LED照明灯の交換時期に関する情報を記憶するための記憶部と、前記LED照明灯の装着によって前記記憶部に前記交換時期に関する情報を記憶させる制御部と、前記記憶部に記憶される前記LED照明灯の交換時期に関する情報を外部に送信する送信部とを有することを特徴とする請求項1記載の照明装置。
- 前記LED照明灯は前記照明器具に着脱可能に構成されるとともに、前記照明器具は、前記LED照明灯が有する交換時期に関する情報を前記LED照明灯から取得する取得部と、前記取得部が取得した前記LED照明灯の交換時期に関する情報を外部に送信する送信部とを有することを特徴とする請求項1記載の照明装置。
- 前記遠隔制御装置は、受信した前記LED照明灯の交換時期に関する情報に基づく表示を行う表示部を有することを特徴とする請求項1記載の照明装置。
- 前記表示部は、前記LED照明灯の点灯の遠隔制御に関連して前記LED照明灯の交換時期に関する情報に基づく表示を行うことを特徴とする請求項10記載の照明装置。
- 前記遠隔制御装置は、前記LED照明灯の非点灯時に前記照明器具から前記LED照明灯の交換時期に関する情報を受信することを特徴とする請求項1記載の照明装置。
- 前記遠隔制御装置は、前記受信部による前記LED照明灯の交換時期に関する情報の受信に先立って前記LED照明灯を非点灯状態に制御することを特徴とする請求項12記載の照明装置。
- 前記制御装置は、前記受信部による前記LED照明灯の交換時期に関する情報の受信後に前記LED照明灯を点灯状態に制御することを特徴とする請求項12記載の照明装置。
- LED照明灯を光源とする照明器具と、
前記照明器具から前記LED照明灯の交換時期に関する情報を受信する受信部および前記受信部の機能を自動的に確認する確認部を備えた制御装置と
を有することを特徴とする照明装置。 - 前記制御装置は、前記LED照明灯の点灯を遠隔制御する制御部を有するとともに、前記制御部による前記LED照明灯の点灯制御に関連して前記照明器具から前記LED照明灯の交換時期に関する情報を自動的に受信することを特徴とする請求項15記載の照明装置。
- 前記制御装置は、前記受信部の機能の自動確認結果を表示する表示部を有することを特徴とする請求項15記載の照明装置。
- LED照明灯を光源とする照明器具と、
前記照明器具から前記LED照明灯の交換時期に関する情報を前記LED照明灯の非点灯時に受信する受信部を備えた制御装置と、
を有することを特徴とする照明装置。 - 前記制御装置は、前記受信部による前記LED照明灯の交換時期に関する情報の受信に先立って前記LED照明灯を非点灯状態に制御する制御部を有することを特徴とする請求項18記載の照明装置。
- 前記制御装置は、前記受信部による前記LED照明灯の交換時期に関する情報の受信後に前記LED照明灯を点灯状態に制御する制御部を有することを特徴とする請求項18記載の照明装置。
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CN2009801467954A CN102224767A (zh) | 2008-11-25 | 2009-11-25 | 照明装置 |
JP2010540482A JPWO2010061827A1 (ja) | 2008-11-25 | 2009-11-25 | 照明装置 |
US13/128,921 US8755918B2 (en) | 2008-11-25 | 2009-11-25 | Illumination device |
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JP2008299558 | 2008-11-25 | ||
JP2008-299558 | 2008-11-25 |
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Cited By (3)
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JP2012094268A (ja) * | 2010-10-25 | 2012-05-17 | Panasonic Corp | 点灯装置ならびにこれを用いた灯具および車両 |
JP2013134886A (ja) * | 2011-12-26 | 2013-07-08 | Mitsubishi Electric Corp | 光源装置及び照明器具 |
JP2017514270A (ja) * | 2014-03-24 | 2017-06-01 | フィリップス ライティング ホールディング ビー ヴィ | 非接触led照明器具及び非接触led照明器具を含むled照明ネットワーク |
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JP6097963B2 (ja) * | 2012-09-13 | 2017-03-22 | パナソニックIpマネジメント株式会社 | 照明システム |
JP6012009B2 (ja) * | 2012-09-28 | 2016-10-25 | パナソニックIpマネジメント株式会社 | 照明システム |
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JPWO2010061827A1 (ja) | 2012-04-26 |
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US20110230984A1 (en) | 2011-09-22 |
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