JP4092109B2 - lighting equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a configuration of a lighting fixture that uses an LED for a nightlight and is directly attached to a ceiling.
[0002]
[Prior art]
Conventionally, most night-lights provided in lighting fixtures for direct ceiling installation using fluorescent lamps use small incandescent bulbs of low watts such as jujube spheres. The reason is that it was the simplest method for obtaining a faint light that could not be disturbed during nighttime sleep and could identify the surrounding objects within a range that was not dazzling. Examples of lighting fixtures that use small incandescent bulbs as night lights include those described in Utility Model Registration No. 2555250 and JP-A-2001-297621.
[0003]
[Problems to be solved by the invention]
However, the night light using the above-mentioned jujube spheres is only considered to obtain light, and in the fixture design of lighting fixtures, fluorescent lamps that are main lights, their lighting circuits, fixture mounting devices, etc. However, the nightlights had to be installed in those empty spaces, and the quality and aesthetics of the lights were not considered. Also in the lighting fixture described in the above-mentioned publication, the night-light is arranged in a vacant space in the peripheral portion that is shifted from the center portion of the lighting fixture.
[0004]
In particular, since the light of the nightlight is light with low glare, it is easy to look directly at the lighting fixture, and the time during which the nightlight is turned on is the longest time during which the lighting is used. The ceiling-mounted lighting device is most easily seen in bed during daily life. Despite this situation, the nightlights were arranged without considering the beauty of the light, so when the nightlights were turned on, the ring lamps, shade fixtures, remote control receivers that control the lighting fixtures, etc. As a result, the form of the night light reflected in the shade often distorts, and the problem with the beauty of light has been significant.
[0005]
In this way, the form of the irradiation light of the nightlight reflected in the shade appears to be distorted especially when the nightlight is arranged in the peripheral portion, so that it is like the lighting apparatus described in JP-A-11-353930. In addition, there is a nightlight placed in the center of the appliance. However, in this lighting fixture, it is possible to avoid the shadow of the fixture of the lighting fixture such as a lifting ring arranged at the center of the fixture, but it is almost the same height as other members, for example, the nightlight. The fact that the shadows of the annular fluorescent lamps and the like arranged on the shade are not projected on the shade was not taken into consideration at all, and the beauty of the light was not sufficient.
[0006]
In addition, other problems with incandescent lamps such as jujube bulbs are that the lamps are likely to be cut off because they are used for a long time, and even if they are low wattage, they are used for a long time. There was a problem that could not be said.
[0007]
In recent years, as a method for solving the problem that the lamp life is short and the power saving is not sufficient, it has been devised to use an LED having a long life and low power consumption as a night light source.
As an LED used as a night light, for example, there is a lamp described in Japanese Patent Application Laid-Open No. 11-177149, in which an LED luminous body is enclosed in a hollow hollow sphere.
However, although the problem of lamp life and power saving is solved by using the LED as a nightlight, there has been no consideration for the aesthetics of light. Further, in general, LEDs are often of a type with strong directivity of light that is shaped so that light is concentrated and irradiated forward in order to increase the intensity of the light.
If this is used at the position of a conventional night light, it is possible to obtain light that does not cause a shadow on the shade by an obstacle depending on the conditions. However, since the light has high directivity, only a part of the shade becomes brighter and the contrast with other dark parts becomes stronger, so it cannot be said that it is beautiful. Moreover, since intense light is irradiated partially, it will also cause dazzling discomfort to the sleeping person.
[0008]
[Means for Solving the Problems]
  The present invention uses the following means in order to solve the above problems. That is, in the invention described in claim 1, an annular lamp is mounted, the LED is used as a nightlight, and the lighting fixture includes a remote control device for remotely operating the fixture, the nightlight being mounted on the fixture body.Wired to the remote control electronic circuit unitProvided integrally with the receiver unit,Mounted on the same substrate inside the receiver unit with the light receiving sensor provided in the receiver unitIn addition, it is disposed at a substantially central portion in a plan view of the lighting fixture and below a lower end of the annular lamp in a side view of the lighting fixture and at a position closer to the shade than the annular lamp, and outside the cover member of the receiving unit. On the side surface, a reflection surface is formed such that the peripheral portion of the arrangement portion of the nightlight is inclined upward as it approaches the nightlight side, and the reflection surface is used as a reflection plate for light emitted from the nightlight.
[0009]
  Moreover, in invention of Claim 2, the fixture main body of the said lighting fixture is provided with the attachment device of the lighting fixture in the approximate center part in planar view,Receiver unitIs attached to the luminaire via a bracket disposed below the attachment device.
[0010]
  In the invention according to claim 3,The night light is an LED having low directivity to which light is diffused and irradiated, or an LED having a light diffusing means.
[0011]
  In the invention according to claim 4,The front-end | tip part of the said nightlight protrudes outside from the cover member of a receiving part unit.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described with reference to the accompanying drawings. 1 is a perspective view showing a lighting fixture of the present invention, FIG. 2 is a bottom view showing the lighting fixture with the shade removed, FIG. 3 is a side sectional view showing the lighting fixture, and FIG. 4 is an assembly showing the lighting fixture. FIG. 5, FIG. 5 is a perspective view showing a remote control receiver unit, FIG. 6 is a side cross-sectional view showing a nightlight mounting state, FIG. 7 is a circuit diagram showing a remote control electronic circuit unit, and FIG. 8 shows a conventional remote control electronic circuit unit. FIG. 9 is a side cross-sectional view showing a lighting fixture in which a night-light is arranged on the peripheral portion of the fixture body.
[0018]
First, a schematic configuration of the lighting fixture will be described. As shown in FIGS. 1 to 4, the luminaire 1 includes, for example, an instrument body 10, annular fluorescent lamps 30 and 30 attached to the instrument body 10, and annular fluorescent lamps 30 and 30 attached to the instrument body 10. 30 is composed of a shade 20 that covers 30 and a remote control receiver unit 50 that remotely controls the lighting fixture 1, and is configured as a lighting fixture for direct attachment to the ceiling that is attached by directly contacting the fixture body 10 to the ceiling surface. Has been.
[0019]
A mounting hole 11 is formed at the center of the instrument body 10 in plan view. The mounting body 11 is mounted on the mounting adapter 62 mounted on the wiring device 61 such as a rosette or a ceiling fixed to the ceiling surface, so that the device body 10 can be mounted on the ceiling surface. is doing.
[0020]
A plurality of annular fluorescent lamps 30, 30 are attached to the lower surface portion of the instrument body 10, and the annular fluorescent lamps 30, 30 are covered from below by a shade 20. The shade 20 is formed in a substantially spherical shape that protrudes downward, and is attached to the instrument body 10 by means of shade fixtures 12, 12... Fixed on the instrument body 10 side.
[0021]
In addition, a remote control bracket 51 is attached to the instrument main body 10 across the attachment hole 11 in which the attachment adapter 62 is fitted, and the remote control receiver unit 50 is attached to the lower surface of the remote control bracket 51. Has been.
The remote control receiver unit 50 is provided with a light receiving sensor 52, and the light receiving sensor 52 receives light from a separate remote control transmitter, whereby the lighting fixture 1 is remotely controlled.
[0022]
As described above, the mounting adapter 62 that is a mounting device for the lighting fixture 1 is arranged at a substantially central portion in plan view of the fixture body 10, and the remote control receiver unit 50 is mounted on the remote control bracket 51 located below the mounting adapter 62. Is attached, and the lower part of the remote control receiver unit 50 is located below the lowest end of the annular fluorescent lamps 30 and 30.
Therefore, regardless of the position of the remote control transmitter provided separately from the luminaire 1 side, the light from the annular fluorescent lamp 30 and the shade fixture 12 is interposed between the remote control transmitter and the light receiving sensor 52. There is no structure of the luminaire 1 that blocks the light.
Thereby, the transmission from the remote control transmitter can be received by the light receiving sensor 52 of the remote control receiver unit 50, and the light reception performance from the remote control transmitter is improved.
The remote control receiver unit 50 is provided with a night light 53.
[0023]
Next, the nightlight 53 will be described. The night light 53 is constituted by an LED, is provided integrally with the remote control receiver unit 50, and is disposed on the lower surface of the remote control receiver unit 50.
[0024]
As shown in FIGS. 5 to 7, the nightlight 53 is disposed in the vicinity of the light receiving sensor 52, and the nightlight 53 and the light receiving sensor 52 are mounted on the same substrate 55 in the remote control receiver unit 50.
Further, the tip of the nightlight 53 protrudes downward by a dimension h from the lower surface of the cover member 50a of the remote control receiver unit 50.
[0025]
A peripheral portion of the portion where the nightlight 53 is arranged on the lower surface of the cover member 50a is formed on an inclined surface 50b which is inclined upward as it approaches the nightlight 53 side. The inclined surface 50b is configured to have a surface state that easily reflects light, such as white or a glossy surface having a color close to white such as cream or ivory, and reflects light emitted from the nightlight 53. I am doing so. Thereby, it is possible to enhance the light irradiated downward from the nightlight 53.
Further, on the side surface of the cover member 50a, a channel changeover switch 59a for switching the reception frequency of the remote control receiver unit 50, and an operation for switching whether or not a confirmation sound is generated when the lighting fixture 1 is operated by the remote control transmitter. An operation unit 59 composed of a sound selector switch 59a is integrally provided.
[0026]
The instrument body 10 is provided with a remote control electronic circuit unit 5 as shown in FIG. 7, and the remote control electronic circuit unit 5 is connected to a power source, an annular fluorescent lamp 30, and a remote control receiver unit 50. .
The power supply to the annular fluorescent lamp 30 is performed via the remote control electronic circuit unit 5 and is controlled according to the reception state of the light receiving sensor 52 of the remote control receiver unit 50.
[0027]
Here, in the case of a conventional lighting apparatus using a jujube bulb as a night light, as shown in FIG. 8, the remote control electronic circuit unit 5 ′ is provided with a power supply, an annular fluorescent lamp 30, and a light receiving sensor 52 ′. Since the nightlight 53 ′ is connected in addition to the unit 50 ′, it is necessary to separately provide wiring for that purpose, parts for fixing the nightlight, etc., which is problematic in terms of ease of assembly of the equipment and cost was there.
[0028]
However, in the case of the luminaire 1 of the present plan, the nightlight 53 is mounted on the substrate 55 on which the light receiving sensor 52 is mounted and is provided integrally with the remote control receiver unit 50. No reflector or the like is required, the number of parts can be reduced, and the assembly work of the instrument can be facilitated.
[0029]
Further, since the signal system of the remote control receiver unit 50 and the like operates at a voltage of 5V, and a light bulb such as a jujube sphere normally operates at a voltage of 100V, in conventional lighting fixtures, a power circuit dedicated to the nightlight is used as a remote control electronic circuit Although it is necessary to provide the unit 5, this LED operates at 5 V or less, and therefore, in the case of the night light 53, it is not necessary to provide a power supply circuit again. That is, the nightlight 53 can be attached by slightly changing the wiring pattern of the substrate 55 on which the light receiving sensor 52 is provided.
[0030]
As the LEDs constituting the nightlight 53, LEDs having a wide irradiation range or LEDs having a cover for diffusing light emitted from the LEDs over a wide range are used.
Here, some LEDs having such a wide irradiation range have an irradiation range that is substantially the entire range around the lamp. However, when the LED is used as the night light 53, in practice, the entire irradiation range is not limited. It is not used as irradiation light from the nightlight 53. For example, light from a portion buried in the LED cover member 50 a is not irradiated to the outside and is not used as irradiation light for the night light 53.
Therefore, the range of light that is effectively used as the nightlight 53 is the range of light that is irradiated from the portion protruding from the cover member 50 a and reflected on the shade 20. That is, the range of the area in which the nightlight 53 illuminates the surface of the shade 20 is the irradiation range that is effectively used.
Hereinafter, the irradiation range on the shade surface 20 will be referred to as an “effective irradiation range” of the night light 53.
For example, as shown in FIGS. 1 and 3, the effective irradiation range of the nightlight 53 of this example is an irradiation range of 180 ° or more, and the light from the nightlight 53 is irradiated on the substantially entire surface of the shade 20. It is like that. In addition, what is attached to the LED and diffuses light over a wide range is not limited to the cover, but may be anything that can diffuse the irradiation light from the LED.
[0031]
In this case, since the nightlight 53 is at the lowest position in the space surrounded by the appliance body 10 and the shade 20, there is nothing that blocks the light emitted from the nightlight 53 within the effective irradiation range of the nightlight 53. Structures such as the annular fluorescent lamp 30 and the shade fixture 12 of the lighting fixture 1 are not reflected. As a result, the illumination light from the night light 53 is beautifully shaped in the shade and has a good-looking atmosphere with an excellent aesthetic appearance, and the space where the lighting fixture is provided is softened and easy to relax.
Moreover, the nightlight 53 is arrange | positioned in the vicinity of the light reception sensor 52, and will be located in the approximate center of the lighting fixture 1 in planar view, and the light from the nightlight 53 reflected on the shade 20 is substantially circular, and its appearance is good.
[0032]
And the range which the light from the nightlight 53 located in the approximate center part of the lighting fixture 1 in planar view is reflected on the shade 20 is the substantially whole surface of the shade 20 in this example as shown in above-mentioned FIG. 1, FIG. However, as shown by a two-dot chain line in FIG. 3, the effective irradiation range of the nightlight 53 may be at least a range that covers a portion inside the inner peripheral diameter R of the smallest-diameter annular fluorescent lamp 30. (In addition, the night-light 53 which has the effective irradiation range shown with the dashed-two dotted line of FIG. 3 has shown the case where it attaches to the instrument main body 10.)
In other words, in the present lighting device 1, the nightlight 53 has an effective irradiation range at least in a portion from the center position of the shade 20 surface in the plan view to the minimum inner circumference R of the annular fluorescent lamp 30, and the nightlight 53 is effective. There are no obstacles to block light up to the irradiation range.
[0033]
However, even if there is an obstacle that blocks light within the effective irradiation range of the night light 53 and a shadow is generated on the surface of the shade 20, if the generated shadow is thin, there is no concern. The form of the irradiation light from the night light 53 reflected on the shade 20 is not impaired, and it is possible to maintain a good-looking atmosphere with an excellent aesthetic appearance.
For example, when the illuminance on the surface of the shade 20 is higher than 30% of the illuminance at that portion when there is no shadow in the entire range of shadows generated within the effective irradiation range of the nightlight 53 (that is, effective irradiation of the nightlight 53) If the shadow generated within the range does not have a portion where the illuminance on the shade 20 surface of the shadow is 30% or less of the illuminance on the shade 20 surface when there is no shadow), the generated shadow is thin In addition, since the contrast difference between the shadow portion and the non-shadow portion is relatively small, the shadow is not worrisome and the beauty of the form of the irradiation light is not impaired.
[0034]
In addition, when the size of the shadow generated in the effective irradiation range only occupies an area of 5% or less of the effective irradiation range area, the shadow is a very small shadow, and thus it is a thin shadow as described above. Of course, even if it is a dark shadow (that is, even if the illuminance of the shadow part is lower than 30% of the illuminance when there is no shadow), it is of interest to the viewer. No, the beauty of the irradiated light is not impaired.
On the contrary, when the size of the shadow generated in the effective irradiation range occupies an area of 90% or more of the effective irradiation range area, almost the entire effective irradiation range is covered with the shadow, so that it becomes dark overall. Therefore, not only when the shadow is thin as described above, but also when it is a dark shadow (that is, when the illuminance of the shadow portion is lower than 30% of the illuminance when there is no shadow) ), The viewer will not be bothered, and the beauty of the irradiated light will not be impaired. For example, in order to diffuse the irradiation light from the nightlight 53, the periphery of the nightlight 53 may be covered with a cover member. However, in this case, the illuminance is reduced substantially as a whole and does not become locally dark. Therefore, it does not impair the beauty of the irradiated light.
[0035]
Furthermore, even when a shadow occurs in a part of the effective irradiation range, such as the area of the shadow generated within the effective irradiation range of the nightlight is 5% or more and 90% or less of the effective irradiation range area, If the illuminance on the shadow shade surface has an illuminance of 30% or more of the illuminance when there was no shadow, the shadow will not be bothersome for the viewer, and the beauty of the form of the irradiated light will be impaired. It will not be.
On the other hand, when a shadow occurs in a range of 5% or more and 90% or less of the effective irradiation area, which is a size that can recognize both a shadowed part and a non-shadowed part. If the shadow is a dark shadow (if the illuminance on the shaded surface of the shadow is less than 30% of the illuminance when there is no shadow), the shadow produced for the viewer will be worried and the form of the irradiated light The beauty of will be impaired.
[0036]
Also, normally, when there is an illuminance difference between two points on the shade, for example, when one illuminance is about 50% of the other illuminance, a bright light source such as the annular fluorescent lamp 30 of the luminaire 1 If so, the difference in brightness between the two can be clearly felt, but if the light source is a dark light source such as the night light 53, the difference in brightness between the two is hardly felt, and the illuminance of one is equal to the illuminance of the other. It is not until about 30% or less that the difference between the two can be felt strongly.
Therefore, even if a shadow is generated within the effective illumination range of the night light 53, if the illuminance of the generated shadow is higher than 30% of the illuminance when there is no shadow in that portion, the brightness of both The difference is not worrisome, and the form is kept in good light with a beautiful looking atmosphere.
[0037]
In addition, the night light 53 of this example is configured by using an LED having low directivity to which light is diffused and irradiated, or an LED having a cover for diffusing light, as described above. The directivity of the irradiation light is not high and the effective irradiation range can be widened as in the case of using a high directivity LED. In addition, since the irradiated light becomes diffuse light, it becomes dull and soft light that is less dazzling than a highly directional LED, it becomes light with a good atmosphere, it can be easy to relax and disturb sleep. Absent.
[0038]
In addition, the light irradiated toward the lower surface side of the cover member 50a from the nightlight 53 protruding downward forms the inclined surface 50b used as a reflector, and is reflected downward and irradiated to the lower side. The light emitted from the nightlight 53 can be used efficiently.
Moreover, the light quantity of the nightlight 53 can also be comprised so that adjustment can be provided by providing a volume in the instrument main body 10 or a remote control.
[0039]
In addition, the remote control receiver unit 50 provided with the nightlight 53 is attached to the instrument body 10 via the remote control bracket 51, so that the attachment hole 11 is formed in the central part of the instrument body 10, and the Even though the attachment device such as the attachment adapter 62 is fitted in the attachment hole 11, the nightlight 53 can be easily arranged at the center portion in the plan view of the instrument body 10.
Thereby, it can be easily realized that the light irradiated to the shade from the nightlight 53 becomes a light having a good appearance and atmosphere as a circle.
Further, regardless of the shape and size of the mounting device provided in the central part of the instrument body, it becomes easy to arrange the nightlight at a fixed position in the central part of the instrument body.
As a result, even if the shape and size of the mounting device are different, the irradiation light from the nightlight reflected on the shade can be made to have a constant size and shape, and there is a sense of unity when multiple lighting fixtures are installed. It is possible to increase the atmosphere of the space.
[0040]
The protrusion dimension h of the nightlight 53 from the cover member 50a can be adjusted by changing the mounting position of the substrate 55 on the cover member 50a, the mounting height of the LED used for the nightlight 53 on the substrate 55, and the like. It is possible to do.
With this configuration, the positional relationship between the light emitting surface and cover of the LED and the lower surface and inclined surface 50b of the cover member 50a can be changed, and the effective irradiation range of the nightlight 53 and the amount of irradiation light are adjusted. It is possible.
[0041]
In this example, the nightlight 53 is arranged at the center of the instrument body 10 in plan view. However, as shown in FIG. 9, the nightlight 53 can also be arranged on the outer peripheral side of the largest-diameter annular fluorescent lamp 30. .
As described above, even when the nightlight 53 is arranged at the peripheral portion of the instrument body 10, there is no obstacle that blocks the light from the annular fluorescent lamp 30, the shade fixture 12, etc. until the effective irradiation range of the nightlight 53. It can be constituted as follows. Further, by arranging the night light 53 closer to the shade 2 than the annular fluorescent lamp 30, the effective irradiation range diameter can be widened, and it is possible to constitute light having a good looking atmosphere.
[0042]
【The invention's effect】
  The present invention has the following effects by being configured as described above. First, as in claim 1, an annular lamp is mounted, the LED is used as a nightlight, and a lighting fixture including a remote control device for remotely operating the fixture, the nightlight is attached to the fixture main body.Wired to the remote control electronic circuit unitProvided integrally with the receiver unit,Mounted on the same substrate inside the receiver unit with the light receiving sensor provided in the receiver unitIn addition, it is disposed at a substantially central portion in a plan view of the lighting fixture and below a lower end of the annular lamp in a side view of the lighting fixture and at a position closer to the shade than the annular lamp, and outside the cover member of the receiving unit. On the side surface, a reflection surface is formed by tilting the peripheral portion of the arrangement portion of the nightlight upward as it approaches the nightlight side, and the reflection surface is used as a reflection plate for light emitted from the nightlight.
  Normally, the receiving unit is not limited to the position of the remote control transmitter provided separately from the luminaire side, but between the remote control transmitter and the receiver unit, an annular fluorescent lamp, a shade fixture, etc. It is arranged at a position where there is no structure of a lighting fixture that blocks the light. Therefore, by providing a nightlight integrally with the receiver unit, it is possible to keep the form of the light reflected in the shade beautifully without being blocked by the structure of the luminaire before the irradiation light from the nightlight reaches the shade. Can do. Further, by providing the nightlight integrally with the receiver unit, a support for the nightlight, a reflector, and the like are not required, the number of parts can be reduced, and the assembly work of the instrument can be facilitated. Furthermore, it is not necessary to separately provide wiring in the appliance for the night light, and the night light can be attached by slightly changing the wiring pattern of the substrate on which the light receiving sensor is provided.
  Moreover, the effective irradiation range diameter can be widened, the area of the light from the nightlight reflected in the shade can be increased, and the dark portion can be reduced. As a result, the lighting apparatus is excellent in aesthetic appearance, and the space in which the lighting apparatus is provided is softened and relaxed with soft light without glare.
  Furthermore, since the light of the nightlight that is irradiated can be enhanced by the reflector, even if the light emitted from the nightlight is diffused light, the amount of light is not short, and the function as a nightlight is fully demonstrated. can do.
[0043]
  Furthermore, as claimed in claim 2, the fixture body of the lighting fixture is provided with a lighting fixture mounting device at a substantially central portion in plan view,Receiver unitIs attached to the luminaire via a bracket arranged below the attachment device, so that the nightlight can be easily arranged at the center in the plan view of the fixture body, and the irradiation light from the nightlight reflected in the shade It is possible to easily realize the light having a good appearance and atmosphere as a circular shape. Further, regardless of the shape and size of the mounting device provided in the central part of the instrument body, it becomes easy to arrange the nightlight at a fixed position in the central part of the instrument body. As a result, even if the shape and size of the mounting device are different, the irradiation light from the nightlight reflected on the shade can be made to have a constant size and shape, and there is a sense of unity when multiple lighting fixtures are installed. It is possible to increase the atmosphere of the space.
[0044]
  Furthermore, as in claim 3,Since the nightlight is an LED having low directivity to which light is diffused and irradiated, or an LED having a light diffusing means, the directivity of irradiation light is not high as in the case of using an ordinary LED, The irradiation range can be widened. Furthermore, since the irradiated light is diffused light, it becomes a soft light with a dim light, a light with a good atmosphere, and it is easy to relax and does not disturb bedtime.
[0045]
  Furthermore, as in claim 4,Since the tip of the nightlight protrudes outward from the cover member of the receiver unit, the positional relationship between the light emitting surface and lens of the LED and the lower surface and the inclined surface b of the remote control receiver unit can be changed. It is possible to adjust the irradiation range and the amount of irradiation light.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a lighting fixture of the present invention.
FIG. 2 is a bottom view showing the luminaire with the shade removed.
FIG. 3 is a side sectional view showing the lighting apparatus.
FIG. 4 is an assembly view showing a lighting fixture.
FIG. 5 is a perspective view showing a remote control receiver unit.
FIG. 6 is a side cross-sectional view showing a state where the nightlight is mounted.
FIG. 7 is a circuit diagram showing a remote control electronic circuit unit.
FIG. 8 is a circuit diagram showing a conventional remote control electronic circuit unit.
FIG. 9 is a side cross-sectional view showing a lighting fixture in which a nightlight is arranged on the peripheral edge of the fixture body.
[Explanation of symbols]
1 lighting equipment
10 Instrument body
11 Mounting holes
20 Sade
30 Annular fluorescent lamp
50 Remote control receiver unit
50a cover member
50b inclined surface
51 Bracket
52 Light receiving sensor
53 Nightlight

Claims (4)

An annular lamp is mounted, the LED is used as a nightlight, and a lighting fixture including a remote control device for remotely operating the fixture,
The night light is provided integrally with the receiving unit connected to the remote control electronic circuit unit mounted on the instrument body, and is mounted on the same substrate inside the receiving unit as the light receiving sensor provided in the receiving unit. In addition, at a substantially central portion in a plan view of the luminaire, and below the lower end of the annular lamp in a side view of the luminaire, disposed at a position closer to the shade than the annular lamp,
On the outer surface of the cover member of the receiver unit, a reflection surface is formed by tilting the peripheral portion of the arrangement portion of the nightlight upward as it approaches the nightlight side, and the reflection surface is a light reflection plate irradiated from the nightlight Lighting equipment characterized by being used as The fixture main body of the lighting fixture is provided with a lighting fixture mounting device at a substantially central portion in plan view, and the receiving unit is connected to the lighting fixture via a bracket disposed below the mounting device. The lighting fixture according to claim 1, wherein the lighting fixture is attached to the lighting fixture.   The lighting apparatus according to claim 1 or 2, wherein the nightlight is an LED having low directivity to which light is diffused and irradiated, or an LED having a light diffusion means.   The lighting fixture according to any one of claims 1 to 3, wherein a tip of the nightlight projects outward from a cover member of the receiving unit.

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