JP2004127527A - Lighting device and illumination fixture - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lighting device and an illumination fixture free from limitation in the kind of a light source, capable of informing the state of light source to provide a convenience for a judgement of the time of exchanging a light source to a user. <P>SOLUTION: The illumination device comprises an LED 4 informing the lighting efficiency of circular fluorescent lamps 1a, 1b at all times, an accumulated lighting time detecting means 31, a judging means 32, and an information control means 33. Accordingly, as the state of the lighting efficiency of the circular fluorescent lamps 1a, 1b can be obtained from the information of the LED 4 at all times, it is possible to call upon to exchange the circular fluorescent lamps 1a, 1b at a proper time. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a lighting device and a lighting fixture that can control lighting of a main light source and an auxiliary light source.
[0002]
[Prior art]
2. Description of the Related Art In the past, particularly in general household lighting fixtures, ceiling-directed fixtures in which a light source is a ring-shaped or straight tube-shaped fluorescent lamp have been often used.
[0003]
Regarding the replacement of the light source of such a lighting fixture, the user made its own judgment based on changes in the brightness of the room when the lighting fixture was used, or the light source was at the end of its life and flickered or became inconsistent It is common to exchange in cases.
[0004]
However, this is a situation in which the light source is not replaced despite a situation in which sufficient illuminance cannot be obtained, which may affect the living environment, and by using the light source until it becomes a point, This is undesirable because the light source and the lighting fixture itself may be overloaded.
[0005]
As a method for solving this problem, the present applicant has filed an application in which a state immediately before the end of life of a light source is notified to the outside (for example, see Patent Document 1).
[0006]
In the technique described in Patent Document 1, a constant current is passed through a hot cathode type filament electrode to perform preheating, and a filament voltage is detected a predetermined time after the filament voltage has risen from the start of preheating. Then, the filament voltage is compared with a preset voltage, and when the filament voltage is equal to or higher than the set voltage, an abnormal signal is output and the notification unit is notified.
[0007]
[Patent Document 1] JP-A-2002-75676 (pages 4-6, FIG. 1)
[0008]
[Problems to be solved by the invention]
The technique described in Patent Literature 1 is suitable as a method capable of notifying a state immediately before the end of life, but since it is immediately before the end of life, it is not notified even in a state where sufficient illuminance is not ensured. There is also.
[0009]
Further, the technique described in Patent Document 1 cannot be applied to a light source having another configuration because the type of light source is limited to a type having a hot cathode type filament.
[0010]
The present invention has been made in view of the above, and it is possible to always notify the user of the state of the light source, to make it easy for the user to appropriately determine the replacement time of the light source, and to be limited to the type of the light source. It is an object of the present invention to provide a lighting device and a lighting fixture that are not used.
[0011]
[Means for Solving the Problems]
A lighting device according to claim 1, a main light source, lighting control means for controlling lighting of the main light source, and capable of controlling an auxiliary light source to be turned on when the main light source is turned off; Notifying means for constantly notifying the lighting efficiency of the light source; lighting time cumulative detecting means for detecting the lighting cumulative time of the main light source; determining means for determining the lighting efficiency of the main light source from the cumulative time of the lighting time cumulative detecting means; Notification information control means for varying notification information of the notification means based on the determination result of the means.
[0012]
In the present invention and the following inventions, definitions and technical meanings of terms are as follows unless otherwise specified.
[0013]
According to the first aspect of the present invention, first, the lighting state of the main light source and the auxiliary light source is appropriately controlled by the lighting control unit. Next, when the main light source is turned on, the accumulated lighting time is detected by the lighting time accumulation detecting means each time.
[0014]
Further, based on the detection result of the lighting time accumulation detecting means, the determining means determines the current state of the lighting efficiency when the lighting efficiency when the main light source is not used is 100%.
[0015]
The notification information is varied by the notification information control means based on the result determined by the determination means.
[0016]
The notifying means can notify the information of at least the state of the lighting efficiency of the main light source, the state where the lighting efficiency is reduced, and the state before the end of the life, based on the determining means.
[0017]
According to the first aspect of the present invention, a main light source, lighting control means capable of controlling lighting of the main light source and controlling the auxiliary light source to be turned on when the main light source is turned off; Notifying means for constantly notifying the illumination efficiency of the main light source; lighting time accumulation detecting means for detecting the lighting cumulative time of the main light source; determining means for determining the lighting efficiency of the main light source from the cumulative time of the lighting time accumulation detecting means; And notification information control means for varying notification information of the notification means based on the determination result of the determination means, so that the illumination efficiency of the main light source can always be reported, so that the user can The replacement of the main light source can be facilitated.
[0018]
Also, no matter what structure the light source has, at least the information immediately before the end of life is reported, so that various problems due to the end of life light source can be suppressed.
[0019]
According to a second aspect of the present invention, there is provided a lighting device comprising: a main light source; lighting control means for controlling lighting of the main light source; lighting time accumulation detecting means for detecting the lighting cumulative time of the main light source; Determining means for determining the illumination efficiency of the light source; an auxiliary light source; controlling the auxiliary light source so that it can be turned on when the main light source is turned off; and varying a lighting state of the auxiliary light source based on the determination result of the determining means. Auxiliary light source control means for causing;
It is characterized by having.
[0020]
In the invention according to claim 2, first, the lighting state of the main light source is appropriately controlled by the lighting control means. Next, when the main light source is turned on, the accumulated lighting time is detected by the lighting time accumulation detecting means each time.
[0021]
Further, based on the detection result of the lighting time accumulation detecting means, the determining means determines the current state of the lighting efficiency when the lighting efficiency when the main light source is not used is 100%.
[0022]
Then, based on the result determined by the determination means, the lighting state of the auxiliary light source is varied by the auxiliary light source control means, and when the main light source is turned off, control is performed so that the main light source can be appropriately turned on.
[0023]
In addition, the auxiliary light source is configured to be able to notify the information of at least the state of the proper lighting efficiency, the state where the lighting efficiency is reduced, and the state before the end of the life of the main light source based on the determination unit. .
[0024]
According to the second aspect of the present invention, the main light source, lighting control means for controlling the lighting of the main light source; lighting time cumulative detecting means for detecting the cumulative lighting time of the main light source; Determining means for determining the illumination efficiency of the main light source from the auxiliary light source; controlling the auxiliary light source so that it can be turned on when the main light source is turned off; And the auxiliary light source control means for changing the main light source, the lighting efficiency of the main light source can be notified by the auxiliary light source, so that the user can easily replace the main light source at an appropriate time.
[0025]
Also, no matter what structure the light source has, at least the information immediately before the end of life is reported, so that various problems due to the end of life light source can be suppressed.
[0026]
According to a third aspect of the present invention, there is provided a lighting device comprising: a device main body; and the lighting device according to any one of the first to second aspects provided on the device main body.
[0027]
According to the third aspect of the invention, the operation and effect of the first or second aspect are provided.
[0028]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a configuration of an embodiment of the present invention will be described with reference to the drawings.
[0029]
1 to 3 show a first embodiment of the present invention. FIG. 1 is a cross-sectional view of the lighting fixture of the first embodiment, FIG. 2 is a bottom view of the lighting fixture of FIG. 1, and FIG. FIG. 4 is an explanatory diagram for explaining the operation of the lighting device.
[0030]
In the figure, ring-shaped fluorescent lamps 1a and 1b, which are main light sources, have an annular glass bulb 2 in which a discharge medium made of a rare gas and mercury is sealed. Further, a filament electrode as an electrode means is provided at both ends of the glass bulb 2, and a base (not shown) is provided across the both ends of the glass bulb 2. The base 3 is provided with four base pins electrically connected to the electrodes so as to be inclined toward the center of the lamp.
[0031]
Reference numeral 11 denotes a device main body, which is formed in a circular shape and a thin shape with a circular appearance, and a circular opening 12 is formed in the center thereof in the vertical direction, and a storage space is provided around the opening 12. A storage section 13 is formed, and an annular step 14 is formed around the storage section 13. The annular plate portion 15 facing above the step portion 14 is formed in a flat plate shape thinner than the thickness of the storage portion 13 in the height direction.
[0032]
A pair of sockets 16 for connecting the bases of the two ring-shaped fluorescent lamps 1a and 1b are disposed obliquely outward on the step portion 14 of the appliance body 11, and are symmetrical with respect to the position of the socket 16. In addition, a pair of resin or metal lamp holders 17 that are fitted and held on the outer periphery of the glass bulb 2 are provided.
[0033]
In addition, a socket 18 is provided in the storage portion 13 of the appliance body 11 so as to face the opening portion 12, and the baby ball 5 as an auxiliary light source is screw-connected to the socket 18. The part 14 is provided with two ring-shaped fluorescent lamps 1a and 1b having different lamp ring diameters.
[0034]
The base pins protruding from the bases of the ring-shaped fluorescent lamps 1a and 1b are inserted and connected to the socket 16, and the glass bulb 2 opposite to the base 3 is held by the lamp holder 17.
[0035]
Further, a lighting device 3 including a high-frequency lighting circuit 30 serving as lighting control means is disposed in the space of the storage section 13 of the appliance body 11. An adapter 21 is electrically connected to a power input side of the high frequency lighting circuit 30 by a wire (not shown) or the like, and each socket 16 is electrically connected to an output side by a wire or the like.
[0036]
The adapter 21 is formed in a thin disk shape and is integrally fixed to the instrument main body 11 via a connecting portion (not shown) at a lower portion inside the opening portion 12 of the instrument main body 11, and along the connecting portion. The lighting device 3 is connected to the power input side of the lighting device 3 by a wire or the like to be wired. The adapter 21 is electrically connected to and mechanically supported by a rectangular hooking seal 22 installed on a ceiling surface or the like when the device is attached.
[0037]
In addition, an LED 4 serving as a notification unit is provided on the flat portion 19 of the device main body 11 so as to face the baby ball 5 via the opening 12.
[0038]
Further, a shade 23 is attached to the instrument body 11 so as to cover the lower side and the side of the instrument body 11. The shade 23 is formed of a translucent milky white material, has a large arc surface downward, and is formed in a thin shape that protrudes gently, and a mounting portion 24 that is mounted to the instrument body 11 is formed on a peripheral edge portion. ing.
[0039]
Here, the lighting device 3 will be described with reference to FIGS. The curve X in FIG. 4 represents the change in the illumination efficiency of the ring-shaped fluorescent lamps 1a and 1b, the vertical axis represents the illumination efficiency, and the horizontal axis represents time.
[0040]
The lighting device 3 includes a high-frequency lighting device 30, a lighting time accumulation detecting unit 31, a determining unit 32, and a notification information controlling unit 33.
[0041]
The high-frequency lighting circuit 30 supplies a condition that, for example, when the ring-shaped fluorescent lamp 1a is equivalent to a 32W type, emits 38 W at a high frequency of 45 kHz, for example, a lamp current of about 430 mA and a lamp voltage of about 88 V. If the ring-shaped fluorescent lamp 1b is equivalent to the 40 W type, a condition that the lamp power is 48 W at a high frequency of 45 kHz, for example, a lamp current of about 430 mA and a lamp voltage of about 111 V is supplied. The ring-shaped fluorescent lamp 1b corresponding to the shape is turned on. The fluorescent lamps 1a and 1b can be switched on, off, dimmed or turned off by a lighting state switching means such as a remote controller or a drawstring (not shown).
[0042]
The lighting time accumulation detecting means 31 is connected to the high frequency lighting circuit 30, and detects the power supply time when the high frequency lighting circuit 30 supplies power to at least one of the annular fluorescent lamps 1a and 1b. It is always stored as a cumulative value (this is the “cumulative lighting time”).
[0043]
The determining means 32 is connected to the cumulative lighting time detecting means 31 and determines the current lighting efficiency of the annular fluorescent lamps 1a and 1b based on the detection result of the cumulative lighting time detecting means 31. That is, as shown in FIG. 4, the reference value A of the cumulative lighting time 0 at which the illumination efficiency is 100% in which the ring-shaped fluorescent lamps 1a and 1b have not been used yet and are in an unused state is set in the determining means 32. Have been. Then, the cumulative lighting time during which the illumination efficiency can be kept within an appropriate range (for example, 70%) with respect to the reference value A is set as the second reference value B. Further, the cumulative lighting time exceeding the second reference and immediately before the end of the life is set as a third reference value C, and the cumulative lighting time exceeding the third reference value and regarded as the end of the life is defined as a fourth reference value. It is set as the value D.
[0044]
The notification information control unit 33 is connected to the determination unit 32, and varies the lighting state of the LED 4 based on the determination result of the determination unit 32. That is, under the control of the notification information control means 33, the lighting state of the LED 4 is variable, for example, blue, yellow, red, and blinking.
[0045]
The operation of the present embodiment will be described.
[0046]
As shown in FIG. 1, the appliance body 11 is supported on the ceiling surface or the like via an adapter 21 connected to a hooking ceiling 22 installed on the ceiling surface or the like. And the hooking ceiling 22 side are electrically connected, and power is supplied to the lighting device 3. Lighting / dimming / turning-off of the ring-shaped fluorescent lamps 1a and 1b and turning on / off of the baby ball 5 are appropriately selected by lighting-state switching means (not shown). Is controlled.
[0047]
When at least one of the ring-shaped fluorescent lamps 1a and 1b is supplied with power from the high-frequency lighting device 30 of the lighting device 3, the lighting time accumulating means 31 detects the cumulative lighting time and calculates the cumulative lighting time as a cumulative value. It is memorized.
[0048]
Then, the current lighting efficiency of the annular fluorescent lamps 1a and 1b is determined by the determining unit 32 based on the cumulative lighting time input from the lighting time accumulating unit 31 to the determining unit 32.
[0049]
That is, if the cumulative lighting time is between the reference value A and the second reference value B, the determining means 32 determines that the lighting efficiency is within an appropriate range, and outputs the result to the notification information control means 33, The notification information control means 33 lights the LED 4 in blue.
[0050]
If the cumulative lighting time exceeds the second reference value B and is within the range of the third reference value C, the determination means 32 determines that the lighting efficiency is not within the proper range, and reports this result to the notification information. The information is output to the control unit 33, and the notification information control unit 33 lights the LED 4 in yellow.
[0051]
Furthermore, if the cumulative lighting time exceeds the third reference value C and is within the range of the fourth reference value D, the determination means 32 determines that the annular fluorescent lamps 1a and 1b are immediately before the end of life, and as a result, Is output to the notification information control means 33, and the notification information control means 33 lights the LED 4 in red.
[0052]
Further, when the cumulative lighting time exceeds the third reference value D, the determination means 32 determines that the annular fluorescent lamps 1a and 1b are at the end of their life, and outputs the result to the notification information control means 33. Blinks the LED 4 in red.
[0053]
Thereby, the user of the lighting fixture can always know the state of the lighting efficiency of the annular fluorescent lamps 1a and 1b from the notification information of the LED 4.
[0054]
In the present embodiment, the structure using only one LED 4 is disclosed. However, two LEDs corresponding to each of the ring-shaped fluorescent lamps 1a and 1b are provided so that the illumination efficiency of each of the ring-shaped fluorescent lamps 1a and 1b can be notified. LEDs 4 and 4 may be provided.
[0055]
According to the present embodiment, the LED 4 that constantly notifies the user of the illumination efficiency of at least one of the ring-shaped fluorescent lamps 1a and 1b, and the lighting time accumulation that detects at least one of the ring-shaped fluorescent lamps 1a and 1b. Detecting means 31; determining means 32 for determining the lighting efficiency of the annular fluorescent lamps 1a and 1b in four stages based on the cumulative time of the lighting time cumulative detecting means 31; and the notification information of the LED 4 based on the determination result of the determining means 32. The provision of the variable notification information control means 33 makes it possible to always notify the illumination efficiency state of the ring-shaped fluorescent lamps 1a and 1b from the notification information of the LED 4, so that the replacement of the ring-shaped fluorescent lamps 1a and 1b can be performed at an appropriate time. Can be encouraged.
[0056]
In addition, the user also wants to replace it if it gets a little darker, may want to replace it a little bit darker, but wants to replace it before the lamp burns out, and wants to use it just before the lamp burns out. It is possible to easily grasp the guideline for replacing the corresponding annular fluorescent lamps 1a and 1b.
[0057]
Next, a second embodiment will be described with reference to FIG. FIG. 5 is a block diagram illustrating a lighting device according to the second embodiment. Note that the same components as those of the first embodiment are denoted by the same reference numerals, and description thereof will be omitted.
[0058]
In the present embodiment, the baby ball 50 also serves as the notification function of the LED 4 which is the notification means of the first embodiment.
[0059]
The baby ball 50 of the present embodiment is formed of an LED. The baby ball 50 is controlled so that the baby ball 50 can be turned on when the ring-shaped fluorescent lamps 1a and 1b are turned off. The light source 50 is connected to an auxiliary light source control means 34 for changing the lighting state.
[0060]
The auxiliary light source control means 34 is connected to the high-frequency lighting device 30 and also connected to the determination means 32. For example, the baby light bulb 50 blinks in yellow (substantially the same color as a light bulb), red, and yellow. The lighting state is controlled so as to be variable in the order of blinking in red and red.
[0061]
According to the present embodiment, the current lighting efficiency of the annular fluorescent lamps 1a and 1b is determined by the determining unit 32 based on the cumulative lighting time input from the cumulative lighting time detecting unit 31 to the determining unit 32.
[0062]
That is, if the cumulative lighting time is between the reference value A and the second reference value B, the determination means 32 determines that the illumination efficiency is within the appropriate range, and outputs the result to the auxiliary light source control means 34, The auxiliary light source control means 34 lights the baby ball 50 in yellow.
[0063]
If the cumulative lighting time exceeds the second reference value B and falls within the range of the third reference value C, the determining means 32 determines that the lighting efficiency is not within the proper range, and determines the result as the auxiliary light source. Output to the control means 34, and the auxiliary light source control means 34 turns on the LED 4 in red.
[0064]
Furthermore, if the cumulative lighting time exceeds the third reference value C and is within the range of the fourth reference value D, the determination means 32 determines that the annular fluorescent lamps 1a and 1b are immediately before the end of life, and as a result, Is output to the auxiliary light source control means 34, and the auxiliary light source control means 34 blinks the LED 4 in yellow.
[0065]
Further, when the cumulative lighting time exceeds the third reference value D, the determination means 32 determines that the annular fluorescent lamps 1a and 1b are at the end of their life, and outputs the result to the auxiliary light source control means 34. Blinks the LED 4 in red.
[0066]
The illumination efficiency of the ring-shaped fluorescent lamps 1a and 1b of the baby ball 50 of this embodiment is notified when the ring-shaped fluorescent lamps 1a and 1b are turned off.
[0067]
Therefore, according to the present embodiment, the lighting efficiency of the ring-shaped fluorescent lamps 1a and 1b can be notified from the lighting state of the baby ball 50, so that replacement of the ring-shaped fluorescent lamps 1a and 1b can be prompted at an appropriate time. it can.
[0068]
In addition, the user also wants to replace it if it gets a little darker, may want to replace it a little bit darker, but wants to replace it before the lamp burns out, and wants to use it just before the lamp burns out. It is possible to easily grasp the guideline for replacing the corresponding annular fluorescent lamps 1a and 1b.
[0069]
In the first and second embodiments, the annular fluorescent lamps 1a and 1b are used as the main light source. However, even if the main light source has any structure such as a discharge lamp, an LED, and an organic EL, for example, If the lighting time accumulation detecting means 31, the discriminating means 32, the notification information controlling means 33 or the auxiliary light source controlling means 34 of the second embodiment is used, the same effects as those of the first and second embodiments can be obtained.
[0070]
Furthermore, in the first and second embodiments, a reset unit that can reset the cumulative lighting time stored in the lighting time accumulation detecting unit 31 can be appropriately provided.
[0071]
【The invention's effect】
According to the first aspect of the present invention, a main light source, lighting control means capable of controlling lighting of the main light source and controlling the auxiliary light source to be turned on when the main light source is turned off; Notifying means for constantly notifying the illumination efficiency of the main light source; lighting time accumulation detecting means for detecting the lighting cumulative time of the main light source; determining means for determining the lighting efficiency of the main light source from the cumulative time of the lighting time accumulation detecting means; And notification information control means for varying notification information of the notification means based on the determination result of the determination means, so that the illumination efficiency of the main light source can always be reported, so that the user can The replacement of the main light source can be facilitated.
[0072]
Also, no matter what structure the light source has, at least the information immediately before the end of life is reported, so that various problems due to the end of life light source can be suppressed.
[0073]
According to the second aspect of the present invention, the main light source, lighting control means for controlling the lighting of the main light source; lighting time cumulative detecting means for detecting the cumulative lighting time of the main light source; Determining means for determining the illumination efficiency of the main light source from the auxiliary light source; controlling the auxiliary light source so that it can be turned on when the main light source is turned off; And an auxiliary light source control means for changing the light source, it is possible to notify the illumination efficiency of the main light source, so that the user can easily replace the main light source at an appropriate time.
[0074]
Also, no matter what structure the light source has, at least the information immediately before the end of life is reported, so that various problems due to the end of life light source can be suppressed.
[0075]
According to the third aspect of the invention, the operation and effect of the first or second aspect are provided.
[Brief description of the drawings]
1 is a cross-sectional view of a lighting device according to a first embodiment; FIG. 2 is a bottom view of the lighting device of FIG. 1; FIG. 3 is a block diagram showing a lighting device of the lighting device; FIG. 5 is a block diagram showing a lighting device according to a second embodiment.
1a, 1b: ring-shaped fluorescent lamp 30 as a main light source ... high-frequency lighting circuit 4 as lighting control means 4 ... LED as notification means
31 ... Lighting time accumulation detecting means 32 ... Determining means 33 ... Information information control means 3 ... Lighting device.
5, 50: baby ball as auxiliary light source 11: main body of device

Claims (3)

A main light source, lighting control means for controlling lighting of the main light source and controlling to turn on the auxiliary light source when the main light source is turned off;
A notifying means for constantly notifying the lighting efficiency of the main light source to the outside;
Lighting time accumulation detecting means for detecting the lighting time of the main light source;
Determining means for determining the illumination efficiency of the main light source from the cumulative time of the lighting time cumulative detecting means;
Notification information control means for varying notification information of the notification means based on the determination result of the determination means;
A lighting device comprising: A main light source; lighting control means for controlling lighting of the main light source;
Lighting time accumulation detecting means for detecting the lighting time of the main light source;
Determining means for determining the illumination efficiency of the main light source from the cumulative time of the lighting time cumulative detecting means;
An auxiliary light source; an auxiliary light source control unit that controls the auxiliary light source to be turned on when the main light source is turned off, and that changes a lighting state of the auxiliary light source based on a determination result of the determination unit;
A lighting device comprising: Instrument body;
The lighting device according to any one of claims 1 and 2, which is provided on an appliance body;
A lighting fixture comprising:

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