JP3760796B2 - LIGHTING DEVICE AND LIGHTING EQUIPMENT HAVING THE SAME - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a lighting device and a lighting fixture including the lighting device.
[0002]
[Prior art]
Conventionally, an apparatus main body having a set channel and one or more lighting loads controlled to be turned on, and a wireless signal composed of a channel signal designating a channel and a control signal for controlling the apparatus main body are transmitted. There is provided an illuminating device that includes a light source, and remotely operates a device main body designated by a channel signal from a transmitter to turn on or off or dimm the lighting load.
[0003]
The apparatus main body includes a lighting circuit unit that turns on the lighting load by a commercial power source, and a reception control unit that receives a wireless signal and controls the lighting circuit unit according to the control signal. Such a device main body is disposed in the fixture main body, and a lighting fixture is constituted by the device main body, the fixture main body, and a shade. And this lighting fixture is installed in a ceiling etc.
[0004]
The reception control unit includes a microcomputer that operates from an external power supply, and the microcomputer is provided with a storage unit that stores channels. The microcomputer reads the channel stored in the storage unit, determines whether or not the channel specified by the received wireless signal matches the channel stored in the storage unit, and the channels are mutually connected. When it is determined that they match, the lighting circuit unit is controlled according to the control signal of the wireless signal.
[0005]
In addition, the reception control unit includes a nonvolatile memory that stores the channels stored in the storage unit and the control contents of the microcomputer for backup. For example, when the power supply to the microcomputer is stopped due to a power failure, for example, the channel stored in the storage unit immediately before the power failure and the control contents of the microcomputer at that time are saved in the memory. When power is supplied to the computer again, the microcomputer reads the channel and the control content stored in the memory, controls the lighting circuit unit with the control content, and stores the channel in the storage unit again. As a result, in the same state as immediately before the power failure, the apparatus main body is turned on or off, and is operable by the transmitter.
[0006]
By the way, the channel setting to the storage unit is set by a channel signal transmitted from the transmitter (see Japanese Patent Publication No. 2-15157). When the setting switch provided in the apparatus main body is operated, the microcomputer of the reception control unit enters the setting standby state. When the channel signal is received in the setting standby state, the microcomputer designates the channel signal. The channel is stored in the storage unit. At this time, the channel stored in advance in the storage unit is deleted, and the channel is reset.
[0007]
Further, the apparatus main body is provided with a reset switch. When this reset switch is operated, the microcomputer is reset, the stored contents of the storage unit are cleared, and the initial setting channel set in advance is stored. Stored in the department.
[0008]
For example, due to a power failure, part of the stored data of the channel stored in the storage unit of the microcomputer is lost, the microcomputer is forcibly reset, or even part of the stored data stored in the memory. When the communication channel between the microcomputer and the memory is lost or a normal channel is not set in the storage unit, the microcomputer cannot recognize the channel set in the storage unit. Therefore, it may not be possible to determine whether the channel specified by the wireless signal from the transmitter matches the channel of the storage unit, and the apparatus main body may not be operated by the transmitter.
[0009]
Therefore, the user operates the reset switch to reset the microcomputer and set an initial setting channel in the storage unit. The initial setting channel is not erased even when the power supply to the microcomputer is stopped. When the initial setting channel is different from the channel designated by the wireless signal of the transmitter, the user operates the setting switch to reset the channel in the storage unit.
[0010]
Furthermore, the microcomputer of the reception control unit detects whether or not the channel stored in the storage unit can be recognized, for example, an abnormality occurs in the storage data of the storage unit as described above due to the influence of noise or the like, When it is detected that the channel cannot be recognized, the stored contents of the storage unit are cleared and the initial setting channel is set in the storage unit again, as in the case where the reset switch is operated.
[0011]
[Problems to be solved by the invention]
However, in the above-described conventional lighting device, when an abnormality occurs in the storage data of the storage unit due to the influence of noise or the like and the channel cannot be recognized, the initial setting channel is set by the operation of the reset switch or the detection of the microcomputer. If the initial setting channel is different from the channel specified by the wireless signal of the transmitter even if it is reset in the storage unit, the main unit cannot be operated by the transmitter and it is installed on the ceiling. There is a problem that it is not easy to use because it is necessary to set the channel again by operating the setting switch of the lighting fixture. Further, when it becomes impossible to operate the apparatus main body with the transmitter as described above, the cause is difficult for the user to understand.
[0012]
Furthermore, even if the microcomputer stores the channel in the memory as a backup in the event of a power failure, if the channel cannot be set in the storage unit, it will not be possible to determine whether the channel matches or does not match. It becomes impossible. Therefore, the user operates the reset switch.
[0013]
However, as described above, when the initial setting channel is different from the channel specified by the transmitter, the user cannot operate the main body of the apparatus using the transmitter even if the reset switch is operated. In addition, even if the cause is difficult for the user to understand, the user must operate the setting switch of the lighting fixture and set the channel specified by the transmitter in the storage unit, which is inconvenient. It is.
[0014]
For example, as shown in FIG. 4, when the lighting fixture is installed on the ceiling, first, the reset switch is operated to reset the microcomputer. At this time, the initial setting channel CH1 is stored in the storage unit of the apparatus main body.
[0015]
However, when the channel designated by the transmitter is CH2, even if the user transmits a wireless signal designating the channel CH2 to the apparatus main body by the transmitter, the microcomputer of the apparatus main body is stored in the storage unit. Since it is determined that the initial setting channel CH1 and the channel CH2 designated by the transmitter do not match, control according to the control signal of the wireless signal is not performed. That is, even if the user operates the transmitter, the lighting load of the apparatus main body cannot be turned on or off.
[0016]
Therefore, the user operates the setting switch of the apparatus main body to place the microcomputer in a setting standby state, and transmits a wireless signal designating the channel CH2 from the transmitter. When the wireless signal is received by the reception control unit, the microcomputer erases the channel CH1 stored in the storage unit and stores the channel CH2 in the storage unit.
[0017]
After such channel setting, when the user transmits a wireless signal by the transmitter, the microcomputer of the apparatus main body determines that the channels match each other. Therefore, the apparatus main body is operated according to the control signal of the wireless signal. The lighting load can be turned on or off.
[0018]
After that, for example, when noise is applied and the stored data of the stored channel becomes abnormal and the microcomputer cannot recognize the channel, the microcomputer detects that the channel cannot be recognized. Then, the initial setting channel CH1 is reset in the storage unit.
[0019]
However, even if the initial setting channel CH1 is reset in the storage unit, the initial setting channel CH1 and the channel CH2 specified by the transmitter do not coincide with each other, so that it becomes impossible to operate the apparatus main body from the transmitter. is there.
[0020]
In such a case, the user can hardly understand the cause of the inability to operate the device main body with the transmitter, even if the cause is known, operate the setting switch on the device main body of the luminaire purposely installed on the ceiling, Channel CH2 must be set again in the storage unit. By resetting the channel in this manner, the channel stored in the storage unit is matched with the channel CH2 designated by the wireless signal from the transmitter, and the operation of the apparatus main body from the transmitter becomes possible.
[0021]
The present invention is intended to solve the above-described problems, and provides a lighting device that can easily set a channel without being conscious of it, and a lighting fixture including the same.
[0022]
[Means for Solving the Problems]
In order to achieve the above object, the invention of claim 1 has a set channel, a device main body that controls lighting of one or more lighting loads, a channel signal that specifies a channel, and a control that controls the device main body. A lighting device comprising a transmitter for transmitting a signal, wherein the device main body stores a lighting circuit unit for lighting the lighting load, a receiving unit for receiving a channel signal and a control signal from the transmitter, and a channel. A storage unit, a determination unit that determines whether a channel specified by a channel signal received by the reception unit matches a channel stored in the storage unit, and a determination unit that determines that the channels match each other A control unit that controls the lighting circuit unit according to the control signal received by the receiving unit, and the control unit determines the channel stored in the storage unit. When it cannot be recognized by the unit, a setting standby state is set in which the channel specified by the channel signal transmitted from the transmitter is set in the storage unit. For example, noise is applied and stored in the storage unit. When an abnormality occurs in the storage state of a channel, the discrimination unit cannot recognize the channel. At this time, by setting the control unit to a setting standby state, the user tries to operate the device main body and receives a channel signal from the transmitter. When the control signal is transmitted, the channel specified by the channel signal is set in the storage unit. Therefore, the user can easily set the channel without being aware of it, and the usability can be improved.
[0023]
According to a second aspect of the present invention, there is provided an apparatus main body having a set channel and controlling lighting of one or more lighting loads, and a transmitter for transmitting a channel signal for specifying a channel and a control signal for controlling the apparatus main body. The lighting device is a lighting circuit unit that lights up the lighting load, a receiving unit that receives a channel signal and a control signal from a transmitter, a storage unit that stores a channel, and a receiving unit that receives the lighting signal. Received by the receiving unit when it is determined that the channel specified by the received channel signal matches the channel stored in the storage unit, and the determining unit determines that the channels match each other. A control unit that controls the lighting circuit unit in response to the control signal received, and a reset unit that resets the control unit includes a small number of devices in the apparatus main body and the transmitter. In either case, the control unit is in a setting standby state in which the channel designated by the channel signal transmitted from the transmitter is set in the storage unit when reset by the reset means. When reset by the reset means, when the setting standby state is entered, when the user transmits a channel signal and a control signal from the transmitter in an attempt to operate the device body in the setting standby state, the channel signal is designated. Since the channel is set in the memory unit, the user can easily set the channel without being aware of it, and the usability can be improved. For example, unlike the conventional example, it is different from the channel specified by the transmitter. The initial setting channel is set in the storage unit, and the main unit can be operated from the transmitter. It is possible to save time and effort must be re-set the tunnel, there is no need to set the initial setting channel, can be reduced data capacity of the initialization channel.
[0024]
According to a third aspect of the present invention, there is provided a device main body having a set channel and controlling the lighting of one or more lighting loads, and a transmitter for transmitting a channel signal designating a channel and a control signal for controlling the device main body. The lighting device is a lighting circuit unit that lights up the lighting load, a receiving unit that receives a channel signal and a control signal from a transmitter, a storage unit that stores a channel, and a receiving unit that receives the lighting signal. Received by the receiving unit when it is determined that the channel specified by the received channel signal matches the channel stored in the storage unit, and the determining unit determines that the channels match each other. A control unit that controls the lighting circuit unit according to the control signal received, and a storage unit that stores the channel stored in the storage unit for backup. When the channel backed up by the storage unit and stored again in the storage unit cannot be recognized by the discriminating unit, a setting standby state is set in which the channel specified by the channel signal transmitted from the transmitter is set in the storage unit. For example, when an abnormality occurs in the storage state of the channel stored in the storage unit due to the application of noise or the like, the determination unit cannot recognize the channel. Thus, when a user transmits a channel signal and a control signal from the transmitter in an attempt to operate the apparatus body, the channel specified by the channel signal is set in the storage unit, so that the user can easily do it without being aware of it. Channels can be set and usability can be improved.
[0025]
According to a fourth aspect of the present invention, there is provided a device main body having a set channel and controlling lighting of one or more lighting loads, and a transmitter for transmitting a channel signal designating a channel and a control signal for controlling the device main body. The lighting device is a lighting circuit unit that lights up the lighting load, a receiving unit that receives a channel signal and a control signal from a transmitter, a storage unit that stores a channel, and a receiving unit that receives the lighting signal. Received by the receiving unit when it is determined that the channel specified by the received channel signal matches the channel stored in the storage unit, and the determining unit determines that the channels match each other. A control unit that controls the lighting circuit unit according to the control signal received, and a storage unit that stores the channel stored in the storage unit for backup. Is in a standby state when the channel backed up by the storage unit cannot be set in the storage unit, and the control unit is set when the channel backed up by the storage unit cannot be set in the storage unit. By setting the standby state, when the user transmits a channel signal and a control signal from the transmitter in an attempt to operate the apparatus main body, the channel specified by the channel signal is set in the storage unit, so that the user is not conscious. The channel can be easily set and the usability can be improved. For example, as in the conventional example, the user has to set the channel by operating the reset switch or setting switch on the device body side. It can be omitted.
[0026]
According to a fifth aspect of the present invention, in the second aspect of the present invention, the reset means is provided in the transmitter and transmits a reset signal instructing the controller to reset, and the control unit receives the reset signal at the receiver. Since the transmitter is equipped with a reset means, it is easy to use the transmitter without operating the reset switch on the apparatus body side as in the conventional example. In addition, since the control unit can be reset and no reset switch is required for the apparatus main body, the apparatus main body can be reduced in size and cost.
[0027]
A sixth aspect of the present invention is a lighting fixture including the lighting device according to any one of the first to fifth aspects, wherein the lighting fixture is provided with a fixture main body on which the device main body is disposed. Play.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
(Embodiment 1)
As shown in FIG. 1 (a), the lighting device of the present embodiment has a set channel, a device main body A that controls the lighting load of the double ring fluorescent lamp 1 and the bean bulb 2, and the channel. It consists of a transmitter B for transmitting a wireless signal using, for example, an infrared ray medium composed of a coded channel signal to be specified and a control signal for controlling the apparatus main body A.
[0029]
The apparatus main body A receives the wireless signal and turns on the lighting circuit unit 3 for lighting the fluorescent lamp 1 with the commercial power source AC, the lighting circuit unit 6 for lighting the bean bulb 2 with the commercial power source AC, and lighting in response to the wireless signal. And a reception control unit 4 that controls the circuit units 3 and 6. Such an apparatus main body A is disposed in the apparatus main body, and a lighting apparatus is constituted by the apparatus main body, the apparatus main body, a shade attached around the apparatus main body, and the like. Moreover, such a lighting fixture is installed on a ceiling or the like.
[0030]
The reception control unit 4 decodes the light receiving unit 7 that receives the wireless signal from the transmitter B, the storage unit 9 that stores the channel, and the channel signal of the wireless signal received by the light receiving unit 7, and the channel signal When the specified channel is determined to match the channel stored in the storage unit 9 and the determination unit 8 determines that the channels match each other, the light receiving unit 7 receives the specified channel. A control unit for controlling the lighting circuit units 3 and 6 by outputting a lighting control signal for lighting the fluorescent lamp 1 and the bean bulb 2 and a dimming control signal for dimming the fluorescent lamp 1 according to the control signal of the wireless signal. 10.
[0031]
Moreover, the memory | storage part 9, the discrimination | determination part 8, and the control part 10 are comprised with the microcomputer, and this microcomputer operate | moves with exclusive software.
[0032]
The lighting circuit unit 3 generates a DC voltage from the commercial power supply AC, converts the DC voltage into a high-frequency alternating voltage by an inverter circuit, and supplies the fluorescent lamp 1 with the DC voltage. In this type of lighting circuit section 3, the power supplied to the fluorescent lamp 1 can be adjusted by changing the on / off frequency of the switching elements constituting the inverter circuit. That is, the lighting circuit unit 3 is provided with a drive circuit 5 that drives the switching element, receives a dimming control signal that is a voltage signal from the control unit 10 of the reception control unit 4, and a drive signal having a frequency according to the voltage value. Is output, and the light output of the fluorescent lamp 1 is controlled by supplying a drive signal to the switching element.
[0033]
On the other hand, the transmitter B has a flat body 20 that is large enough to be held with one hand. On the front surface of the body 20 are a lighting switch 21 and an extinguishing switch 22 for instructing to turn on and off the fluorescent lamp 1, a bean bulb switch 23 for instructing to turn on the bean bulb 2, and the light output of the fluorescent lamp 1. A dimming switch 24 for instructing dimming lighting to be smaller than the rated lighting state, and an up switch 25 and a down switch for instructing adjustment of the light output of the fluorescent lamp 1 in a state in which dimming lighting is instructed by the dimming switch 24 26. Each of these switches 21 to 26 is a push button switch, and generates a control signal having the above instruction contents during a push operation.
[0034]
The transmitter B includes a selection setting switch (not shown) for selecting and setting a channel designated for the apparatus main body A. For example, the channel CH1 or the channel CH2 is set by the selection setting switch. Here, when each of the switches 21 to 26 is pushed, a wireless signal composed of a channel signal designating a channel set by the selection setting switch and a control signal corresponding to each of the switches 21 to 26. Is transmitted from the transmitter B to the apparatus main body A. For example, when the lighting switch 21 is pressed, a wireless signal composed of a channel signal designating the channel CH2 selected and set by the selection setting switch and a control signal for lighting the fluorescent lamp 1 is transmitted from the transmitter B to the device B. It is transmitted to the main body A.
[0035]
Incidentally, the control unit 10 of the reception control unit 4 of the present embodiment detects whether or not the channel stored in the storage unit 9 can be recognized by the determination unit 8. Then, the control unit 10 causes the discriminator 8 to change the channel when an abnormality occurs, for example, part of the stored data of the channel stored in the storage unit 9 is lost or changed to other data. When it is detected that it cannot be recognized, the setting standby state is preferentially set. When the channel signal is received by the light receiving unit 7, the control unit 10 in the setting standby state sets the channel stored in the storage unit 9 to the channel designated by the channel signal.
[0036]
Further, the apparatus main body A is provided with reset means for resetting the microcomputer by operating a reset switch. Even when the microcomputer is reset, the control unit 10 enters a setting standby state and controls the lighting circuits 3 and 6 according to the control contents that are initially set.
[0037]
Here, the operation of the present embodiment will be described with reference to FIG.
[0038]
First, when the lighting fixture is installed on the ceiling, the reset switch of the apparatus main body A is operated, and the microcomputer is reset. And by this reset, the control part 10 will be in the setting standby state mentioned above. At this time, when the user transmits a channel signal designating the channel CH2 by the wireless signal from the transmitter B in an attempt to operate the apparatus main body A, the control unit 10 decodes the channel signal received by the light receiving unit 7 and designates it. The channel CH2 thus set is set in the storage unit 9.
[0039]
As a result, the channel specified by the transmitter can be easily set in the storage unit 9 without the user being aware of it. As a result, an initial setting channel different from the channel designated by the transmitter B as in the conventional example is set in the storage unit 9, the apparatus main body A cannot be operated by the transmitter B, and the channel must be set again. Can be saved. In addition, since it is not necessary to initialize the initial setting channel, the data capacity of the initial setting channel can be reduced.
[0040]
As the channel is set as described above, the apparatus main body A becomes operable by the switches 21 to 26 of the transmitter B, and the user again transmits a wireless signal having the channel signal from the transmitter B. Since the determination unit 8 recognizes the channel CH2 set in the storage unit 9 and determines that the channel CH2 matches the channel CH2 specified by the channel signal from the transmitter B, the control unit 10 The lighting control circuit units 3 and 6 are controlled according to the control signal of the wireless signal.
[0041]
Next, for example, when noise is applied to the storage unit 9 and the storage data of the channel stored in the storage unit 9 is abnormal, and the determination unit 8 cannot recognize the channel, the control unit 10 It is detected that the channel cannot be recognized, and enters the setting standby state.
[0042]
At this time, similarly to the above, if the user transmits a channel signal specifying the channel CH2 by the wireless signal from the transmitter B in an attempt to operate the apparatus main body A, the control unit 10 receives the channel signal received by the light receiving unit 7. And the designated channel CH2 is set in the storage unit 9.
[0043]
As a result, the apparatus main body A becomes operable by the transmitter B, and the next time the user transmits a wireless signal having the channel signal from the transmitter B, the determination unit 9 determines the channel match. Therefore, the control unit 10 controls the lighting control circuit units 3 and 6 according to the control signal of the received wireless signal.
[0044]
That is, in this embodiment, even if an abnormality occurs in the data stored in the channel of the apparatus main body A or the microcomputer is reset, the channel can be set without being conscious. As a result, in order to reset the channel as in the conventional example, it is not necessary to remove the shade of the lighting fixtures and operate the setting switch on the device main body side, thereby saving the trouble of channel setting. It can be done.
(Embodiment 2)
By the way, in Embodiment 1, the microcomputer which comprises the control part 10, the memory | storage part 9, and the discrimination | determination part 8 operate | moves by the power supply from the power supply circuit which is not provided in the apparatus main body A, and the said power supply circuit is commercial power supply. A power supply corresponding to the microcomputer is created from the AC. In the first embodiment, when the commercial power supply AC fails, the power supply to the microcomputer is stopped, and the channel stored in the storage unit 9 may be erased.
[0045]
Therefore, in the present embodiment, as shown in FIG. 2, the channel stored in the storage unit 9 immediately before the power failure is stored for backup, and the storage unit 11 that stores the control content of the control unit 10 immediately before the power failure, An energization signal is generated from the commercial power supply AC and output to the control unit 10. Even when the power supply from the power supply circuit to the microcomputer is stopped due to a power failure of the commercial power supply AC, the microcomputer is powered on for a while. And an auxiliary power supply circuit 12 to be supplied.
[0046]
The storage unit 11 is made of, for example, a nonvolatile semiconductor memory, and stores the channels and the like without requiring external power supply.
[0047]
When the commercial power supply AC fails, the auxiliary power supply circuit 12 supplies power to the microcomputer of the reception control unit 4 for a while, and this power supply causes the microcomputer control unit 10 to supply an energization signal from the auxiliary power supply circuit 12. Thus, it is detected that the commercial power supply AC has failed, and the channel stored in the storage unit 9 and the control content for controlling the lighting circuit units 3 and 6 are stored in the storage unit 11.
[0048]
When the commercial power source AC is energized, the control unit 10 first reads the channel and control content stored in the storage unit 11 and sets the channel in the storage unit 9. Then, the control unit 10 controls the lighting circuit units 3 and 6 with the same control content as before the power failure to turn on, turn off, and dim the fluorescent lamp 1 and the bean bulb 2, and the device main body A is connected to the transmitter B. The switches 21 to 26 can be operated. Thus, in this embodiment, by providing the storage unit 11, even if a power failure occurs, the state before the power failure can be restored.
[0049]
Here, the control unit 10 according to the present embodiment determines whether or not the channel backed up by the storage unit 11 can be set in the storage unit 9, and enters a setting standby state when it is determined that the channel cannot be set. As a result, even when the channel backed up by the storage unit 11 is not set in the storage unit 9, the control unit 10 enters the setting standby state. The channel designated by the transmitter B can be set in the storage unit 9 without being conscious of the operation. As a result, it is possible to save the user from having to set the channel by operating the reset switch and setting switch on the apparatus body side as in the conventional example.
[0050]
By the way, also in the present embodiment, as in the first embodiment, the storage data of the channel of the storage unit 9 may be abnormal due to the influence of noise or the like, and the determination unit 8 may not be able to recognize the channel.
[0051]
For example, data that is not intended by the user is stored in the storage unit 11 immediately after the installation of the lighting fixture, or the control unit 10 runs away due to noise or the like, and the channel reading from the storage unit 11 of the control unit 10 is obstructed. The discriminating unit 8 can recognize the channel in the storage unit 9 due to the occurrence of the occurrence of the data, the stored data of the channel stored in the storage unit 11 is lost even partially, or the stored data changes to another data. Disappear.
[0052]
However, also in the present embodiment, as in the first embodiment, the control unit 10 detects whether the channel stored in the storage unit 9 can be recognized by the determination unit 8, and is set when it is detected that the channel cannot be recognized. Since the standby state is established, the channel designated by the transmitter B can be set in the storage unit 9 without being aware of any event as described above.
(Embodiment 3)
By the way, in Embodiments 1 and 2, the resetting means having a reset switch is provided in the apparatus main body A, but in this embodiment, it is provided in the transmitter B.
[0053]
That is, when the reset switch is operated, the transmitter B transmits a reset signal that instructs the microcomputer to reset. Then, when the receiving unit 7 receives the reset signal, the control unit 10 resets. Further, the transmitter B may be provided with a power switch for turning on / off the power supply to the internal circuit so that the reset signal is transmitted when the power switch is switched from off to on.
[0054]
The operation of this embodiment will be described with reference to FIG.
[0055]
When the lighting apparatus is installed on the ceiling, in the first and second embodiments, the reset switch in the apparatus main body A is operated to reset the microcomputer. However, in this embodiment, this is not necessary, and the user transmits the transmitter B. The microcomputer 10 can be easily reset and the control unit 10 can be set to a setting standby state by transmitting the reset signal from the transmitter B by turning on the power switch from OFF to ON or operating the reset switch. . At this time, as in the first and second embodiments, if the user transmits a channel signal specifying the channel CH2 with a wireless signal from the transmitter B in an attempt to operate the apparatus main body A, the control unit 10 receives the signal at the light receiving unit 7. The channel signal thus decoded is decoded, and the designated channel CH2 is set in the storage unit 9.
[0056]
As the channel is set as described above, the apparatus main body A becomes operable by the switches 21 to 26 of the transmitter B, and the user again transmits a wireless signal having the channel signal from the transmitter B. Since the determination unit 8 recognizes the channel CH2 set in the storage unit 9 and determines that the channel CH2 matches the channel CH2 specified by the channel signal from the transmitter B, the control unit 10 The lighting control circuit units 3 and 6 are controlled according to the control signal of the wireless signal.
[0057]
Then, even if noise is applied to the storage unit 9 and the storage data of the channel stored in the storage unit 9 becomes abnormal and the discrimination unit 8 cannot recognize the channel, the control is performed as in the first and second embodiments. The unit 10 enters a setting standby state, and when a channel signal designating the channel CH2 is transmitted from the transmitter B by a wireless signal, the apparatus main body A is operable by the transmitter B.
[0058]
In the present embodiment as described above, there is no need to provide the main body with a function of resetting the microcomputer and storing the initial setting channel in the storage unit as in the conventional example. Therefore, the function including the reset switch is deleted. Thus, the apparatus main body A can be reduced in size and cost.
[0059]
【The invention's effect】
The invention of claim 1 has a set channel, a device main body that controls lighting of one or more lighting loads, and a transmitter that transmits a channel signal designating a channel and a control signal controlling the device main body. The lighting device is a lighting circuit unit that lights up the lighting load, a receiving unit that receives a channel signal and a control signal from a transmitter, a storage unit that stores a channel, and a receiving unit that receives the lighting signal. Received by the receiving unit when it is determined that the channel specified by the received channel signal matches the channel stored in the storage unit, and the determining unit determines that the channels match each other. And a control unit that controls the lighting circuit unit in response to the received control signal, and the control unit sends the channel when the channel stored in the storage unit cannot be recognized by the determination unit. Since it becomes a setting standby state in which the channel specified by the channel signal transmitted from the device is set in the storage unit, for example, when an abnormality occurs in the storage state of the channel stored in the storage unit due to application of noise or the like, The discriminating unit cannot recognize the channel. At this time, by setting the control unit to the setting standby state, when the user transmits the channel signal and the control signal from the transmitter to operate the apparatus body, the channel signal specifies Since the channel to be set is set in the storage unit, there is an effect that the user can easily set the channel without being aware of it, and the usability can be improved.
[0060]
According to a second aspect of the present invention, there is provided an apparatus main body having a set channel and controlling lighting of one or more lighting loads, and a transmitter for transmitting a channel signal for specifying a channel and a control signal for controlling the apparatus main body. The lighting device is a lighting circuit unit that lights up the lighting load, a receiving unit that receives a channel signal and a control signal from a transmitter, a storage unit that stores a channel, and a receiving unit that receives the lighting signal. Received by the receiving unit when it is determined that the channel specified by the received channel signal matches the channel stored in the storage unit, and the determining unit determines that the channels match each other. A control unit that controls the lighting circuit unit in response to the control signal received, and a reset unit that resets the control unit includes a small number of devices in the apparatus main body and the transmitter. In either case, when the controller is reset by the reset means, the controller enters a setting standby state in which the channel specified by the channel signal transmitted from the transmitter is set in the storage unit. When a user sends a channel signal and a control signal from the transmitter in order to operate the device body, the channel specified by the channel signal is set in the storage unit, so the user can easily set the channel without being aware of it. For example, as in the conventional example, an initial setting channel different from the channel specified by the transmitter is set in the storage unit, and the device main body can be operated from the transmitter. This saves you the trouble of having to reconfigure the channel, It is not necessary to set the channel, there is an effect that it is possible to reduce the data capacity of the initialization channel.
[0061]
According to a third aspect of the present invention, there is provided a device main body having a set channel and controlling the lighting of one or more lighting loads, and a transmitter for transmitting a channel signal designating a channel and a control signal for controlling the device main body. The lighting device is a lighting circuit unit that lights up the lighting load, a receiving unit that receives a channel signal and a control signal from a transmitter, a storage unit that stores a channel, and a receiving unit that receives the lighting signal. Received by the receiving unit when it is determined that the channel specified by the received channel signal matches the channel stored in the storage unit, and the determining unit determines that the channels match each other. A control unit that controls the lighting circuit unit according to the control signal received, and a storage unit that stores the channel stored in the storage unit for backup. When the channel backed up by the storage unit and stored again in the storage unit cannot be recognized by the discriminating unit, a setting standby state is set in which the channel specified by the channel signal transmitted from the transmitter is set in the storage unit. Therefore, for example, when noise is applied and an abnormality occurs in the storage state of the channel stored in the storage unit, the channel cannot be recognized by the determination unit, but at this time, the control unit is set to a setting standby state. When the user transmits a channel signal and a control signal from the transmitter to operate the device body, the channel specified by the channel signal is set in the storage unit, so the user can easily set the channel without being aware of it. Because it can be improved and usability can be improved.
[0062]
According to a fourth aspect of the present invention, there is provided a device main body having a set channel and controlling lighting of one or more lighting loads, and a transmitter for transmitting a channel signal designating a channel and a control signal for controlling the device main body. The lighting device is a lighting circuit unit that lights up the lighting load, a receiving unit that receives a channel signal and a control signal from a transmitter, a storage unit that stores a channel, and a receiving unit that receives the lighting signal. Received by the receiving unit when it is determined that the channel specified by the received channel signal matches the channel stored in the storage unit, and the determining unit determines that the channels match each other. A control unit that controls the lighting circuit unit according to the control signal received, and a storage unit that stores the channel stored in the storage unit for backup. Is in the setting standby state when the channel backed up by the storage unit cannot be set in the storage unit, so when the channel backed up by the storage unit cannot be set in the storage unit, the control unit is set in the setting standby state. Thus, when the user transmits a channel signal and a control signal from the transmitter in order to operate the apparatus main body, the channel specified by the channel signal is set in the storage unit. For example, as in the conventional example, it is possible to save the user from having to set the channel by operating the reset switch or setting switch on the device body side. There is an effect that can be done.
[0063]
According to a fifth aspect of the invention, the reset means is provided in the transmitter and transmits a reset signal instructing the controller to reset, and the controller resets when the receiver receives the reset signal. So, for example, it is not necessary to operate the reset switch on the apparatus body side as in the conventional example, the control unit can be easily reset by the transmitter, and the apparatus body does not require a reset switch. There is an effect that the apparatus main body can be reduced in size and cost.
[0064]
The invention of claim 6 is an illumination fixture provided with the illumination device of claims 1 to 5, and has an appliance main body on which the apparatus main body is disposed, and thus has the same effects as those of claims 1 to 5.
[Brief description of the drawings]
FIG. 1A is a block diagram showing a first embodiment, and FIG. 1B is an operation explanatory diagram of the same.
FIG. 2 is a block diagram showing a second embodiment.
FIG. 3 is an operation explanatory diagram illustrating a third embodiment.
FIG. 4 is an operation explanatory diagram showing a conventional example.
[Explanation of symbols]
1 Fluorescent lamp
2 Bean ball
3 lighting circuit
4 Reception control unit
5 Drive circuit
6 Lighting circuit
7 Light receiver
8 Discriminator
9 Memory part
10 Control unit
A Device body
B Transmitter

Claims (6)

A lighting device having a set channel and comprising a device main body that controls lighting of one or more lighting loads, and a transmitter that transmits a channel signal for specifying the channel and a control signal for controlling the device main body, The apparatus main body is specified by a lighting circuit unit that lights the lighting load, a receiving unit that receives a channel signal and a control signal from a transmitter, a storage unit that stores a channel, and a channel signal received by the receiving unit. According to the control signal received by the receiving unit when the determining unit determines whether the channel matches the channel stored in the storage unit, and the determining unit determines that the channels match each other. A control unit that controls the lighting circuit unit, and the control unit is transmitted from the transmitter when the channel stored in the storage unit cannot be recognized by the determination unit. Lighting apparatus characterized by comprising a set waiting state for setting the channel specified in Yan'neru signal in the storage unit. A lighting device having a set channel and comprising a device main body that controls lighting of one or more lighting loads, and a transmitter that transmits a channel signal for specifying the channel and a control signal for controlling the device main body, The apparatus main body is specified by a lighting circuit unit that lights the lighting load, a receiving unit that receives a channel signal and a control signal from a transmitter, a storage unit that stores a channel, and a channel signal received by the receiving unit. According to the control signal received by the receiving unit when the determining unit determines whether the channel matches the channel stored in the storage unit, and the determining unit determines that the channels match each other. A control unit for controlling the lighting circuit unit, and reset means for resetting the control unit in at least one of the apparatus main body and the transmitter For example, the control unit, when it is reset by the reset means, the illumination device characterized by a set waiting state for setting the channel specified in the channel signal transmitted from the transmitter in the storage unit. A lighting device having a set channel and comprising a device main body that controls lighting of one or more lighting loads, and a transmitter that transmits a channel signal for specifying the channel and a control signal for controlling the device main body, The apparatus main body is specified by a lighting circuit unit that lights the lighting load, a receiving unit that receives a channel signal and a control signal from a transmitter, a storage unit that stores a channel, and a channel signal received by the receiving unit. According to the control signal received by the receiving unit when the determining unit determines whether the channel matches the channel stored in the storage unit, and the determining unit determines that the channels match each other. A control unit that controls the lighting circuit unit, and a storage unit that stores the channel stored in the storage unit for backup, the control unit When a channel that is backed up and stored again in the storage unit cannot be recognized by the determination unit, a setting standby state is set in which the channel specified by the channel signal transmitted from the transmitter is set in the storage unit. Lighting device. A lighting device having a set channel and comprising a device main body that controls lighting of one or more lighting loads, and a transmitter that transmits a channel signal for specifying the channel and a control signal for controlling the device main body, The apparatus main body is specified by a lighting circuit unit that lights the lighting load, a receiving unit that receives a channel signal and a control signal from a transmitter, a storage unit that stores a channel, and a channel signal received by the receiving unit. According to the control signal received by the receiving unit when the determining unit determines whether the channel matches the channel stored in the storage unit, and the determining unit determines that the channels match each other. A control unit that controls the lighting circuit unit, and a storage unit that stores the channel stored in the storage unit for backup, the control unit When Kkuappu been channel is not possible setting in the storage unit, the lighting apparatus characterized by comprising a set waiting state. The reset means is provided in the transmitter and transmits a reset signal instructing the controller to reset, and the controller resets when the receiver receives the reset signal. Item 3. The lighting device according to Item 2. A lighting fixture comprising the lighting device according to claim 1, further comprising a fixture main body on which the device main body is disposed.

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