JP2004247157A - Luminaire - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a luminaire capable of providing brightness at a practical level and an illumination effect in terms of design according to an installation place while securing power saving capability and a long service life property by combining a plurality of kinds of light sources having different characteristics. <P>SOLUTION: This luminaire 1 is provided with: a first light source; a second light source; an illuminance sensor 14; a human-body sensor 16; and a control circuit. The first light source comprises a light emitting diode lamp 11 excellent in power saving capability and a long service life property, being automatically lit when brightness in the environment falls below a set value, and lit out when the brightness in the environment is restored. The second light source comprises a fluorescent lamp 9 and the like capable of illuminating a necessary range with sufficient illuminance, being lit when a person approaches the inside of a set area, and lit out when the person disappears. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a lighting fixture mainly installed in an outdoor part of a building.
[0002]
[Prior art]
BACKGROUND ART Pole-type lighting fixtures installed on the ground are widely used as exterior lighting such as garden lights, gate lights, and street lights (for example, see Patent Documents 1 to 4). In general, this type of lighting apparatus adopts a control mode in which the illuminance of a surrounding is detected by an illuminance sensor, and the surroundings are automatically turned on when the surrounding becomes darker than a certain level. In addition, a control mode in which a necessary portion is illuminated for a predetermined time when a human sensor detects the approach of a person is often used.
[0003]
[Patent Document 1]
JP-A-5-174978 [Patent Document 2]
JP 2000-133475 A [Patent Document 3]
Japanese Patent Application Laid-Open No. 2000-337064 [Patent Document 4]
JP-A-63-136401
[Problems to be solved by the invention]
This type of exterior lighting operates for a long time every night in an outdoor space exposed to wind and rain, and it is difficult to perform daily maintenance satisfactorily as compared with interior lighting. Therefore, in addition to the durability and sealing properties of the instrument body, the light source is required to have power saving and long life. Under such circumstances, in the night-light type luminaire, a fluorescent lamp, which consumes less power than an incandescent lamp, is predominantly used as a light source. However, since it is difficult to change the brightness of a fluorescent lamp when it is turned on, there are only two modes of use, that is, off and on, and the lighting effect tends to be monotonous.
[0005]
Therefore, even in the case of nightlight-type lighting equipment, use incandescent lamps or halogen lamps as light sources, especially in places where dimming is required, or in places where you want to temporarily brighten when people approach. In some cases, the brightness is changed by a light control switch or a light control sensor. However, such a type has a disadvantage that if the lighting time is long, the electricity cost increases.
[0006]
In recent years, light-emitting diode lamps that consume less power and have a longer light source life have been used in various types of lighting equipment. However, although the light emitting diode lamp has high brightness, it has a small amount of light with a point light source, so that it is difficult to obtain sufficient brightness to illuminate the periphery of the device over a wide range. Therefore, if a light emitting diode lamp is used for exterior lighting, it is necessary to attach a considerable number of light emitting diode lamps in order to obtain a practical level of brightness.
[0007]
The present invention has been made in view of such circumstances, and by controlling a plurality of types of light sources having different characteristics in combination, while ensuring power saving and long life, a practical level according to the installation mode. It is an object of the present invention to provide a lighting fixture capable of obtaining a high brightness and a design lighting effect.
[0008]
In addition, although the lighting fixture of this invention aims at being able to be suitably used especially as exterior lighting, it does not prevent use as interior lighting.
[0009]
[Means for Solving the Problems]
To solve the above problems, the lighting fixture of the present invention, a first light source comprising a light emitting diode lamp, an incandescent lamp or a fluorescent lamp, or a second light source comprising another light emitting diode lamp different from the first light source, An illuminance sensor for detecting ambient brightness, a human sensor for detecting the approach of a human body, and a control circuit unit for controlling turning on / off of each light source based on the detection of each sensor, the first light source Is controlled to be automatically turned on when the ambient brightness is lower than a set value, and to be automatically turned off when the ambient brightness is higher than the set value, and the second light source is the first light source. When the human body approaches the set area while the light is on, the light is automatically turned on, and the light is automatically turned off when a certain time elapses after the human body separates.
[0010]
That is, the present invention is configured such that the first light source is continuously turned on as a nightlight, and the second light source is turned on as temporary lighting when a human body approaches. According to the present invention, it is possible to obtain the minimum brightness by the first light source without being completely dark even when unmanned, and to illuminate a necessary range with sufficient brightness only when the human body approaches. it can. A light emitting diode lamp having excellent power saving and long life is used for the first light source having a long lighting time, and a high illuminance light source such as an incandescent lamp is used for the second light source having a short lighting time. In this way, the lighting effect is improved while suppressing an increase in electricity costs.
[0011]
As the type of the second light source, it is preferable that the illuminance is higher than that of the first light source, and in addition, the irradiation direction, the color, and other characteristics are different from those of the first light source. Therefore, at present, incandescent lamps and fluorescent lamps are practical, but other light emitting diode lamps different from the first light source can be sufficiently used depending on their performance. Here, "different" means that the light-emitting diode lamps used for the first light source and the second light source have different optical characteristics, electric characteristics, structural forms, and the like, and also when the same type of lamp is used. Even if there is a difference in the number of lamps constituting each light source, the mounting form, and the like, the overall brightness and the light distribution form may be different.
[0012]
Further, the lighting fixture of the present invention includes a first light source and a second light source having different characteristics from each other, and the second light source is disposed inside a shade made of a translucent light diffusion sheet material, and The first light source is arranged on the outside, and light from the second light source is transmitted through the shade and irradiated, while light from the first light source is reflected and irradiated on the outer surface of the shade. Features.
[0013]
The present invention seeks to obtain a novel lighting effect utilizing the characteristics of each light source by arranging a plurality of types of light sources inside and outside with a shade interposed therebetween, instead of simply juxtaposing them. As the translucent light diffusion sheet material, for example, a milky white thin resin sheet whose surface is matted, a material in which a resin coating is applied to the surface of Japanese paper or other fibrous materials, and the like are preferable. Light from the second light source is emitted as transmitted light from inside the shade, and light from the first light source is emitted as reflected light from outside the shade.
[0014]
In the present invention, a light emitting diode lamp is preferable as the first light source, and an incandescent lamp or a fluorescent lamp, or another light emitting diode lamp different from the first light source is preferable as the second light source. According to this configuration, even if the first light source is a light-emitting diode lamp that is a high-brightness point light source, the irradiation light is diffusely reflected on the surface of the shade, and the surroundings are lightly and dimly illuminated. Existence can also be softened. In addition, since the light source does not directly enter the eyes, it is possible to reduce glare during gaze. In this way, a new impression lighting effect can be obtained, and a light quantity shortage of the light emitting diode lamp can be compensated.
[0015]
The specific configuration of such a lighting fixture is such that the shade is formed in a cylindrical, conical, hemispherical, spindle-shaped or similar rotating body shape, and on the outside of the shade, a transparent rotating body shape is formed all around. The cover may be covered. If this configuration is applied to a so-called pole-type lighting device, the periphery of the device can be evenly illuminated by 360 degrees, so that it can be suitably used as exterior lighting such as a garden light.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0017]
FIG. 1 shows a pole-type lighting device according to an embodiment of the present invention. The illustrated lighting fixture 1 assumes an installation form as a garden light, and is attached to an upper part of a support 2 erected on the ground.
[0018]
The lighting apparatus 1 includes a substantially cylindrical base tube 3, a transparent cover 5 attached above the base tube 3 via an adapter 4, and a lid 6 attached to the top of the cover 5. The outer shell of the instrument body is formed. Power for driving is supplied from underground to the control circuit unit (not shown) provided inside the base cylinder 3 via the inside of the column 2.
[0019]
A lamp socket 8 is attached to the adapter 4 via a socket support member 7. A hole is formed in the center of the adapter 4, and a bulb-type fluorescent lamp 9 is screwed into the lamp socket 8 from above the hole. In the present invention, this fluorescent lamp 9 is the second light source. However, an incandescent lamp (including a halogen lamp and a krypton lamp), an integrated light emitting diode lamp, and the like can be used as the second light source.
[0020]
The cover 5 is a cylindrical body made of transparent acrylic or the like, and transmits light in all circumferential directions. A substantially conical shade 10 made of a translucent light diffusion sheet material is attached to the inside of the cover 5 to cover the entire periphery of the fluorescent lamp 9. As the light diffusion sheet material, for example, a material obtained by applying a resin coating to the surface of Japanese paper is used.
[0021]
A plurality of (only one shown) light emitting diode lamps 11 are arranged downward on the outside of the shade 10 reduced in diameter toward the cover 6 so as to be hidden inside the cover 6. In the present invention, these light emitting diode lamps 11 are the first light sources. The light-emitting diode lamp 11 is supported via a hollow pipe-shaped support 12 and a substantially disk-shaped LED support member 13 attached to the upper end thereof, and extends along the circumferential direction so as to surround the upper part of the shade 10. Is arranged. The support 12 has a lower end attached to the adapter 4 and an intermediate part bent so as to avoid the fluorescent lamp 9, rises inside the shade 10, and protrudes above the shade 10. Therefore, the support 12 is hidden by the shade 10 and cannot be seen from the outside. Inside the support 12, a cord for electrically connecting the light emitting diode lamp 11 to the control circuit unit in the base cylinder 3 is inserted.
[0022]
This lighting fixture 1 is provided with two types of sensors. The first sensor is an illuminance sensor 14 for detecting the surrounding brightness. The illuminance sensor 14 is built in the upper part of the column 2 and constantly monitors the surrounding brightness through a window 15 formed on a side surface of the column 2. When the ambient brightness falls below a set value (for example, about 20 lux), the light emitting diode lamp 11 serving as the first light source is turned on through the control circuit unit, and when the ambient brightness is restored, the light emitting diode lamp 11 is turned off. .
[0023]
The second sensor is a human sensor 16 that detects the approach of a human body, is built in the base cylinder 3, and exposes a detection unit from a side surface of the base cylinder 3. The detection unit is held so as to be able to rotate within a certain range in the left-right direction, so that the detection area can be adjusted. The motion sensor 16 does not operate during the daytime, and operates only at nighttime in conjunction with the illuminance sensor 14. That is, under the condition that the illuminance sensor 14 turns on the light emitting diode lamp 11 through the control circuit unit, when the human body approaches the set area, the fluorescent lamp 9 as the second light source is turned on through the control circuit unit. Then, when a certain period of time (for example, about one minute) elapses without the approaching person, the fluorescent lamp 9 is turned off.
[0024]
In addition, when the second light source is turned on by the operation of the human sensor 16, the first light source is temporarily turned off in conjunction with the second light source, and the first light source is turned on again when the second light source is turned off. Is also good. The configuration of the present invention includes such a control mode.
[0025]
As described above, in the lighting fixture 1 of the present invention, the light-emitting diode lamp 11 as the first light source is automatically turned on when it becomes dark to become a nightlight, and the fluorescent lamp 9 as the second light source is activated in response to the approach of the human body. It is configured to temporarily turn on and off the light. Therefore, the brightness does not become completely dark even when the person is unattended, and the minimum brightness can be obtained. When necessary, the second light source is turned on to obtain sufficient brightness. Since the light emitting diode lamp 11 is used as the first light source that is continuously turned on for a long time, power consumption can be suppressed and electricity bills can be saved. In addition, since the life of the light source is long, maintenance is easy.
[0026]
In the lighting fixture 1, the light of the fluorescent lamp 9 is emitted as transmitted light from the inside of the shade 10, and the light of the light emitting diode lamp 11 is reflected to the outside of the shade 10 and emitted to the side. Therefore, even in the case of a light source having a high brightness and a small amount of light, such as the light emitting diode lamp 11, the light is diffusely reflected on the surface of the shade 10, so that the shade 10 is lightly and dimly illuminated. can get. Further, since the light emitting diode lamp 11 is hidden inside the lid 6 and cannot be directly seen from the side, the glare inherent to the light emitting diode lamp 11 is also reduced.
[0027]
The lighting fixture 1 of the present invention can be embodied not only in the above-mentioned pole-type garden light but also in other forms. Examples are shown in FIGS. The embodiment shown in FIG. 2 is a bracket attached to a wall surface, in which a cylindrical shade 10b is provided in a cylindrical transparent cover 5b, a fluorescent tube 9b serving as a second light source is arranged inside the shade 10b, and a shade 10b is provided. A light emitting diode lamp 11b serving as a first light source is disposed along the upper outer periphery and the lower outer periphery of the light emitting diode lamp 11b.
[0028]
The embodiment shown in FIG. 3 is a ceiling light mounted on a lower surface such as a ceiling or an eave. A rotating body-shaped shade 10c that is pointed downward is provided in a dish-shaped transparent cover 5c. In addition, an incandescent lamp 9c as a second light source is arranged, and a light emitting diode lamp 11c as a first light source is arranged along an upper outer periphery of the shade 10c. In addition to these, various forms of the rotating body and the non-rotating body can be combined with each of the appliance body, the cover, and the shade to implement the invention in various forms.
[0029]
The position of the illuminance sensor or the human sensor in each of the above embodiments is arbitrary as long as the detection performance is not impaired. Further, the illuminance sensor and the human sensor may be integrated in the same case. Further, the configuration of the control circuit for controlling the turning on and off of each light source is also arbitrary, and the control circuit may be built in each sensor.
[0030]
【The invention's effect】
Since the lighting fixture of the present invention includes the first light source that automatically turns on and off according to the surrounding brightness, and the second light source that temporarily turns on and off according to the approach of the human body, it can be completely dark even when unattended. Instead, the minimum brightness can be obtained, and when necessary, sufficient brightness of the second light source can be obtained. Since a light emitting diode lamp excellent in power saving is used as the first light source having a long lighting time, a practical lighting effect can be obtained while suppressing an increase in electricity cost.
[0031]
In the lighting fixture of the present invention, the second light source is arranged inside the shade made of a translucent light diffusion sheet material, the first light source is arranged outside, and the light of the second light source is irradiated as transmitted light. However, since the light from the first light source is configured to be radiated as reflected light, even if the first light source is a high-brightness point light source, it compensates for the lack of light amount and gently illuminates the surroundings lightly. The effect is obtained.
[0032]
Further, in the lighting fixture of the present invention, the shade is formed in a rotating body shape such as a cylindrical shape, a conical shape, a hemispherical shape, and a spindle shape, and a configuration in which an outer cover having a transparent rotating body shape all around the outside of the shade is adopted. Then, the periphery of the device is evenly illuminated by 360 degrees, so that it can be suitably used as exterior lighting.
[Brief description of the drawings]
FIG. 1 is a half side and half sectional view of a lighting device according to an embodiment of the present invention.
FIG. 2 is a structural conceptual diagram of a lighting fixture according to another embodiment of the present invention.
FIG. 3 is a structural conceptual diagram of a lighting fixture according to still another embodiment of the present invention.
[Explanation of symbols]
1 lighting equipment 5 cover 9 fluorescent lamp (second light source)
10 Sed 11 Light emitting diode lamp (first light source)
14 Illumination sensor 16 Human sensor

Claims (4)

A first light source comprising a light emitting diode lamp, a second light source comprising an incandescent lamp or a fluorescent lamp, or another light emitting diode lamp different from the first light source, an illuminance sensor for detecting ambient brightness, and a human body approaching And a control circuit unit that controls turning on / off of each light source based on the detection of each sensor,
The first light source is automatically turned on when the ambient brightness falls below a set value, and is controlled to be automatically turned off when the ambient brightness exceeds the set value,
The second light source is controlled to be turned on automatically when a human body approaches the set area while the first light source is turned on, and to be automatically turned off when a certain time elapses after the human body separates. Lighting equipment featuring. A first light source and a second light source having different characteristics from each other are provided, and the second light source is arranged inside a shade made of a translucent light diffusion sheet material, and the first light source is arranged outside the shade. The light from the second light source passes through the shade and is radiated, while the light from the first light source is reflected on the outer surface of the shade and radiated. The lighting device according to claim 2, wherein the first light source comprises a light emitting diode lamp, and the second light source comprises an incandescent lamp, a fluorescent lamp, or another light emitting diode lamp different from the first light source. The shade is formed in a cylindrical shape, a conical shape, a hemispherical shape, a spindle shape or a similar rotating body shape, and a cover of a transparent rotating body shape is entirely covered around the outside of the shade. 3. The lighting fixture according to 2.

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