JP2013093283A - Lighting fixture - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize different light distribution patterns for a lighting fixture, for a case in which it is used as an ordinary desk lamp and that in which it is used as a portable lighting fixture, although only a single light source is used.SOLUTION: The lighting fixture includes a fixture body 1 with a light source 11 fitted on one end side, a wide light-distribution converter 2 fitted in free detachment to one end side of the fixture body 1, and a pedestal 3 holding the other end side of the fixture body in free detachment. The light source 11 fitted to one end side of the fixture body 1 has its optical axis in parallel with a length direction of the fixture body 1, and the wide light-distribution converter 2 has a light guide 23 equipped with an incident face 22 receiving light emitted from the light source 11 provided at the one end side of the fixture body 1.

Description

  The present invention relates to a lighting fixture.

  FIG. 1 is a diagram illustrating a configuration of a lighting fixture described in Patent Document 1. As illustrated in FIG. Referring to FIG. 1, this lighting fixture includes a first fixture body 101 and a second fixture body 102, and a connector 110 a of the first fixture body 101 and a connector 110 b of the second fixture body 102. Are electrically and mechanically separable. And the 1st instrument main body 101 is comprised in the stand stand so that a lighting stand may be comprised as the whole instrument, and the 2nd instrument main body 102 is comprised in the lamp attached to the upper end of a stand base.

  More specifically, this lighting fixture is charged by the lighting circuit 105a by charging the first secondary battery 106a and the second secondary battery 106b and turning on the switch 107 when an external power source is connected. The lamp 104 can be turned on. Further, when the first instrument body 101 and the second instrument body 102 are separated, the first instrument body 101 and the second instrument body 102 are supplied with power from the second secondary battery 106b. The lamp 104 can be turned on by the lighting circuit 105b by turning on the switch 111 that works only when the lamp is separated.

  Thus, in the lighting fixture described in Patent Document 1, when the first fixture body 101 and the second fixture body 102 are connected, the lamp 104 is turned on to illuminate the lower part. Can be used as a desk lamp, and the second instrument body 102 can be used as a portable lighting instrument (flashlight) by removing the second instrument body 102 from the first instrument body 101 and turning on the lamp 104 it can.

Japanese Patent No. 4660645

  As described above, the lighting fixture described in Patent Document 1 can be used as a normal desk lamp by attaching and detaching the first fixture body 101 and the second fixture body 102. The two instrument bodies 102 can also be used as a portable lighting instrument (flashlight).

  However, in the illuminating device of Patent Document 1, the lamp 104 provided in the second instrument body 102 is used in either case of using as a normal desk lamp or in the case of using as a portable lighting fixture (flashlight). Therefore, there is a problem in that different light distribution patterns cannot be realized when used as a normal desk lamp and when used as a portable lighting device (flashlight).

  The present invention uses a single desk lamp (standlight, floor light, bracket light, etc.) and a portable lighting device (flashlight, etc.), even though only a single light source is used. Then, it aims at providing the lighting fixture which can implement | achieve a different light distribution pattern.

In order to achieve the above object, the invention according to claim 1 is an instrument body in which a light source for emitting light is provided on one end side, and is detachably attached to one end side of the instrument body. And the light source provided on the one end side of the instrument body has an optical axis, and a wide light distribution conversion body, and a base that detachably holds the other end side of the instrument body Is parallel to the longitudinal direction of the instrument body, and the light emitting direction is opposite to the other end side of the instrument body, and the wide light distribution converter is at one end of the instrument body. It has a light guide provided with a light incident surface for entering light emitted from the light source provided on the part side,
The base is provided with a power supply connection for supplying power to the instrument body,
The instrument body is connected to the power supply connection portion of the base and receives power from the power supply connection section of the base when the other end side of the instrument body is held by the base. At least a connecting portion, a secondary battery, a switch, and a lighting portion that turns on the light source, and when the other end portion side of the instrument body is held on a base, the power receiving connecting portion is The power supply from the power supply connection part of the base is charged to charge the secondary battery, and when the switch is turned on, the power supply from the power supply connection part of the base is supplied to the lighting part to turn on the light source Even if the other end side of the instrument main body is removed from the base or the other end side of the instrument main body is held by the base, no external power is supplied to the power feeding connection portion of the base Sometimes, when the switch is on, the secondary battery Giving et discharge to the lighting unit is characterized by being adapted to turn on the light source.

  The invention according to claim 2 is the lighting fixture according to claim 1, wherein the fixture body has a convex light exit surface from a light source provided on one end side of the fixture body. The light incident surface of the wide light distribution converter has a concave shape that matches (matches) the convex light output surface of the instrument body.

  Further, in the lighting device according to claim 1 or 2, it is preferable that the optical axis of the light source of the device body and the central axis of the wide light distribution conversion body coincide with each other. It is a feature.

  The invention according to claim 4 is the lighting fixture according to any one of claims 1 to 3, wherein the wide light distribution converter is configured to totally reflect light from the light source of the fixture body. It is characterized in that light is guided to the entire wide light distribution converter.

  According to the first to fourth aspects of the present invention, a light source that emits light is provided on one end side, and a wide attachment is detachably attached to one end side of the tool main body. A light distribution converter and a base that detachably holds the other end side of the instrument body, and the light source provided on the one end side of the instrument body has an optical axis of the light source Parallel to the longitudinal direction of the instrument body, the light emission direction is opposite to the other end side of the instrument body, and the wide light distribution converter is on one end side of the instrument body. A light guide having a light incident surface for receiving light emitted from the light source, and a wide light distribution converter is attached to one end side of the instrument body. Sometimes it becomes a light distribution pattern by the light that guides the wide light distribution converter, and the wide light distribution converter is removed from the instrument body. The light distribution pattern by the light directly emitted from the light source provided on one end side of the instrument body, so that a normal desk lamp (stand It is possible to realize different light distribution patterns according to the respective uses, when used as a light, floor light, bracket light, etc. and when used as a portable lighting device (flashlight, etc.).

  In particular, according to the invention described in claim 2, in the lighting device according to claim 1, the light emitting surface of the light from the light source provided on one end side of the device main body is convex. Since the light incident surface of the wide light distribution converter is a concave shape that matches (aligns) with the convex light exit surface of the instrument body, the convex shape of the instrument body Light reflection at the boundary between the light exit surface and the concave light incident surface of the wide light distribution converter is reduced, and light from the convex light output surface of the fixture body is efficiently applied to the concave light incident surface of the wide light distribution converter. Can be incident.

  According to a third aspect of the present invention, in the lighting apparatus according to the first or second aspect, the optical axis of the light source of the apparatus main body coincides with the central axis of the wide light distribution conversion body. Therefore, the light from the light source of the instrument body can be efficiently totally reflected and guided in the wide light distribution converter.

It is a figure which shows the structure of the lighting fixture described in patent document 1. FIG. It is a figure which shows the structural example of the lighting fixture of this invention. It is a figure which shows the structural example of the lighting fixture of this invention. It is sectional drawing in the AA of FIG. It is sectional drawing which shows the state which isolate | separated the rod from the base. It is sectional drawing which shows the state which isolate | separated the wide light distribution converter from the rod. It is a figure which shows the circuit etc. which were provided in the rod. When light from a light source of a rod is incident on a light incident surface of a wide light distribution conversion body, the incident light is guided and diffused in the light guide body of the wide light distribution conversion body. . It is a figure which shows the mode of light emission from the light source of a rod, when a wide light distribution conversion body is removed from a rod.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  2 and 3 are diagrams showing a configuration example of the lighting fixture of the present invention. 2 is a perspective view, and FIG. 3 is a front view.

  Referring to FIGS. 2 and 3, this lighting fixture includes a fixture main body (for example, a rod) 1 and a wide light distribution converter (for example, a detachable attachment to one end side of the fixture main body (for example, a rod) 1). A lamp shade portion 2 and a base 3 that removably holds the other end side of the instrument main body (for example, rod) 1. In the following description, it is assumed that the instrument body 1 is a rod (that is, a case where the instrument body 1 is easy to carry is assumed to be rod-shaped). 2 and 3 show a state in which the other end side of the rod 1 is held by the base 3 and the wide light distribution conversion body 2 is attached to the one end side of the rod 1. 2 and 3, the base 3 is provided with leg portions 3a. 2 and 3, reference numeral 4 denotes a power cord for connection to an external power source.

  4 is a cross-sectional view taken along line AA in FIG. 2, FIG. 5 is a cross-sectional view showing a state where the rod 1 is separated from the base 3, and FIG. 6 shows a state where the wide light distribution conversion body 2 is separated from the rod 1. It is sectional drawing. 4 and 5, the leg 3a of the base 3 is not shown for convenience.

  Referring to FIGS. 4 and 5, the base 3 is provided with a hole 5 for receiving the other end side of the rod 1. Here, when the rod 1 has a cylindrical shape, the hole 5 has a cylindrical shape with a diameter corresponding to the diameter of the rod 1 so that the rod 1 can be inserted. Further, inside the hole 5 (for example, the bottom), when the other end side of the rod 1 is received and held in the hole 5, the rod 1 is connected to the power receiving connection portion 7 of the rod 1 as will be described later. A power feeding connection portion 6 for feeding power to one power receiving connection portion 7 is provided. Here, the power feeding connection portion 6 is formed of a conductive material such as copper, and is connected to the power cord 4 or the like.

  In addition, the rod 1 has a power feeding connecting portion provided inside the hole 5 (for example, the bottom) of the base 3 when the other end side of the rod 1 is received and held in the hole 5 of the base 3. 6, a power receiving connection portion 7 that receives power from the power feeding connection portion 6 is provided. Here, the power receiving connection portion 7 is formed of a conductive material such as copper, for example. Thus, when the other end side of the rod 1 is received and held in the hole 5 of the base 3, when the power cord 4 or the like 4 of the base 3 is connected to the external power source, Power is supplied from the power connection 6 to the power receiving connection 7 of the rod 1 (that is, power is supplied to the rod 1).

  4 and 6, the rod 1 is provided with a light source 11 for emitting light on one end side. Here, a light emitting element (for example, a semiconductor light emitting element (specifically, LED or the like)) is used as the light source 11. The light source 11 provided on one end side of the rod 1 has the optical axis X1 parallel to the longitudinal direction X of the rod 1 and the light emission direction opposite to the other end side of the rod 1. On the side.

  The rod 1 also has a light exit surface 12 that emits light from the light source 11 provided on one end side of the rod 1 to the outside of the rod 1. Here, the light exit surface 12 can protect the light source 11 and can be configured as a lens having an optimum shape for the wide light distribution conversion body 2 to be placed thereon. Specifically, in the example of FIGS. 4 and 6, the light exit surface (lens) 12 is configured as a convex shape. More specifically, the light exit surface (lens) 12 is, for example, at least part of a spherical (spherical) surface having a predetermined radius.

  The wide light distribution converter 2 receives light emitted from a cylindrical receiving portion 21 that receives one end of the rod 1 and a light source 11 provided on one end of the rod 1. A light guide 23 having a light incident surface 22. Here, the light incident surface 22 of the wide light distribution conversion body 2 has a concave shape that matches (matches) the convex light output surface 12 of the rod 1. Thereby, when the wide light distribution conversion body 2 is mounted on the rod 1, the positions of the rod 1 and the wide light distribution conversion body 2 and the positions and distances between the light source 11 and the light incident surface 22 are optimized. Specifically, the center of the light emitting surface of the light source 11 and the center of the light incident surface 22 are coaxial, and the wide light distribution converter 2 can be reliably positioned in the vertical and horizontal directions with respect to the rod 1 (light source 11 The distance between the center of the light emitting surface and the center of the light incident surface 22 can be constant (for example, 1.5 mm). Further, the wide light distribution conversion body 2 has a rotating body shape as shown in FIG. 2, and the optical axis X1 of the light source 11 of the rod 1 as shown in FIGS. And the center axis X2 of the wide light distribution converter 2 are preferably coincident with each other.

  4 and 6, the light guide 23 of the wide light distribution converter 2 is configured to guide the light from the light source 11 of the rod 1 to the entire wide light distribution converter 2 by total reflection. Has been. That is, the light guide 23 of the wide light distribution conversion body 2 is formed of a transparent member, and includes the first total reflection surface 23a, the second total reflection surface 23b, and the third total reflection surface 23c. Have. In addition, the light guide 23 of the wide light distribution conversion body 2 is subjected to processing for diffusing light, such as embossing, only on the surface thereof. In such a configuration, the light incident from the light incident surface 22 is totally reflected by the first total reflection surface 23a and then totally reflected by the second total reflection surface 23b, whereby the third total reflection surface 23a is reflected. The light is guided to the reflection surface 23c (side surface of the wide light distribution conversion body 2), and the guided light is diffused as diffused light from the side surface of the wide light distribution conversion body 2 or the like by a texture processing or the like. Thereby, the light of the wide light distribution from the whole wide light distribution conversion body 2 is obtained, and a wide range can be illuminated.

  Although not shown in FIGS. 4 to 6, the rod 1 is further provided with a circuit for supplying power to the light source 11 from the power receiving connection portion 7 of the rod 1 and controlling it. FIG. 7 is a diagram showing a circuit and the like provided in the rod 1. Referring to FIG. 7, the rod 1 further includes a secondary battery 13, a switch 14, a lighting unit (lighting circuit) 15 for lighting (emitting) the light source 11, and a lighting unit (lighting) from the power receiving connection unit 7. Circuit) 15 and a charging / discharging circuit 17 for charging / discharging the secondary battery 13 are provided. In FIG. 7, reference numeral 18 denotes a substrate of the light source 11 such as an LED.

  In such a configuration, when the other end side of the rod 1 is held by the base 3 as in the example of FIG. 4, the power receiving connection portion 7 is fed from the power feeding connection portion 6 of the base 3. In response, the charge / discharge circuit 17 charges the secondary battery 13, and when the switch 14 is turned on, the power supply circuit 16 supplies power to the lighting unit (lighting circuit) 15 by the power supply circuit 16. 11 can be lit (emitted). On the other hand, even if the other end side of the rod 1 is removed from the base 3 or the other end side of the rod 1 is held by the base 3, an external power source is connected to the power feeding connection portion 6 of the base 3. When the switch 14 is on, the charging / discharging circuit 17 supplies the discharge from the secondary battery 13 to the lighting unit (lighting circuit) 15 to turn on the light source 11 (light emission). Further, when the switch 14 is off, neither the power supply from the power supply connection portion 6 of the base 3 nor the discharge from the secondary battery 13 is applied to the lighting portion (lighting circuit) 15, so the light source 11 is turned off.

  Next, an example of a method for using the above-described lighting fixture will be described.

  That is, as an example of a method of using the above-described lighting fixture, normally, the power cord 4 from the base 3 is connected to an external power source (the plug of the power cord 4 is connected to an outlet, etc.) and provided on the base 3 The other end side of the rod 1 is inserted into the hole 5, and the wide light distribution conversion body 2 is placed on the one end side of the rod 1. In this state, when the switch 14 provided on the rod 1 is turned on, the light source 11 emits light. At this time, the light source 11 emits light while charging the secondary battery 13 provided on the rod 1. The light emitted from the light source 11 enters the light incident surface 22 of the wide light distribution converter 2, and the light incident from the light incident surface 22 of the wide light distribution converter 2 is the light guide 23 of the wide light distribution converter 2. By guiding and diffusing the interior, it functions as a device that illuminates a wide area (lighting devices such as a stand light, a floor light, and a bracket light). In this state, when the switch 14 is turned off, the light source 11 is turned off (the light guide 23 of the wide light distribution converter 2 is not illuminated), and only the secondary battery 13 is charged.

  Further, when it becomes necessary to carry the lighting fixture during a disaster or the like, the wide light distribution converter 2 is removed from the rod 1 and the rod 1 inserted into the hole 5 of the base 3 is pulled out. At this time, if the light source 11 is not lit, the switch 14 is turned on. As a result, the light source 11 is turned on (emits light) and functions as a portable lighting device (such as a flashlight). At this time, power supply to the light source 11 is performed by discharging from the secondary battery 13 by the charging / discharging circuit 17, and for example, continuous lighting for about 3 hours is possible with full charge.

  When the light source 11 is turned on during use as a lighting device (lighting fixtures such as a stand light, a floor light, and a bracket light), the rod 1 is pulled out from the hole 5 of the base 3 as it is, so that the light source 11 The power supply to the battery is switched to discharge from the secondary battery 13 by the charge / discharge circuit 17 and can be used as a portable lighting device (flashlight or the like).

  Also, when the power cord 4 from the base 3 is disconnected from the external power source or when a power failure occurs, the power supply to the light source 11 is switched to the discharge from the secondary battery 13 by the charge / discharge circuit 17, The light source 11 can be turned on even when unintended darkness occurs.

  FIG. 8 shows that the power cord 4 or the like 4 from the base 3 is connected to an external power source, the other end side of the rod 1 is inserted into the hole 5 provided in the base 3, and the one end side of the rod 1 is inserted. The wide light distribution conversion body 2 was placed, and in this state, the switch 14 of the rod 1 was turned on to cause the light source 11 to emit light, and the light from the light source 11 was incident on the light incident surface 22 of the wide light distribution conversion body 2. Sometimes (that is, when used as a lighting device for a wide area (a lighting device such as a stand light, a floor light, a bracket light)), the light incident from the light incident surface 22 of the wide light distribution converter 2 is widely distributed. It is a figure which shows a mode that the inside of the light guide 23 of the light conversion body 2 is light-guided and diffused. It can be seen from FIG. 8 that a wide light distribution light from the entire wide light distribution conversion body 2 can be obtained and a wide range can be illuminated.

  9 shows that the wide light distribution converter 2 is removed from the rod 1, the rod 1 inserted into the hole 5 of the base 3 is pulled out, and in this state, the switch 14 of the rod 1 is turned on to emit the light source 11. It is a figure which shows the mode of the light emission from the light source 11, when it is made to do (namely, when using it as a portable lighting fixture (flashlight etc.)). As can be seen from FIG. 9, in this case, the light source 11 is centered on the optical axis X1 (parallel to the longitudinal direction X of the rod 1) of the light source 11 (the light intensity is highest in the direction of the optical axis X1 of the light source 11). Large) Lambertian light distribution E is obtained, and the front of the rod 1 in the longitudinal direction X can be illuminated with a light distribution in a narrower range than when the wide light distribution converter 2 is used.

  As described above, in the present invention, the light source 11 that emits light is provided on one end side, and the wide light distribution conversion body 2 that is detachably attached to one end side of the rod 1. And the base 3 that removably holds the other end side of the rod 1, and the light source 11 provided on the one end side of the rod 1 has an optical axis X1 of the rod The light emitting direction is opposite to the other end side of the rod 1, and the wide light distribution conversion body 2 is on one end side of the rod 1. A light guide 23 having a light incident surface 22 for receiving light emitted from the light source 11 is provided, and the wide light distribution conversion body 2 is disposed on one end side of the rod 1. When attached, it becomes a light distribution pattern by the light that guides the wide light distribution conversion body 2, and the wide distribution from the rod 1 When the converter 2 is removed, the light distribution pattern is obtained by light directly emitted from the light source 11 provided on one end side of the rod 1, so that only the single light source 11 is used. Different light distribution patterns (different) depending on the usage, when used as a normal desk lamp (standlight, floor light, bracket light, etc.) or as a portable lighting device (flashlight, etc.) Directional illumination) can be realized.

  Further, in the present invention, the wide light distribution conversion body 2 simply needs to be inserted into the rod 1 or removed from the rod 1 so that the wide light distribution conversion body 2 can be easily attached to the rod 1. Can be replaced. Moreover, as the wide light distribution conversion body 2, any shape can be used as long as the light guide 23 is totally reflected. In this case, various wide light distribution conversions are performed on the rod 1. By changing the body 2, the light distribution can be changed.

  Further, in the present invention, the rod 1 has a light exit surface 12 for light from the light source 11 provided on one end side of the rod 1 having a convex shape. Since the light incident surface 22 has a concave shape that matches (matches) with the convex light output surface 12 of the rod 1, the convex light output surface 12 of the rod 1 and the concave light incident surface 2 of the wide light distribution conversion body 2 can be obtained. Light reflection at the boundary with the light surface 22 can be reduced, and light from the convex light exit surface 12 of the rod 1 can be efficiently incident on the concave light incident surface 22 of the wide light distribution converter 2.

  In the present invention, since the optical axis X1 of the light source 11 of the rod 1 and the central axis X2 of the wide light distribution converter 2 coincide with each other, the light from the light source 11 of the rod 1 is transmitted in the wide light distribution converter 2. Efficient total reflection and light guiding can be achieved.

  In the above-described example, the secondary battery 13 is provided only in the rod 1 and has a compact configuration. However, as in Patent Document 1, a secondary battery may also be provided on the base 3. it can. In other words, the circuit configuration of the lighting fixture of the present invention can be arbitrarily designed and changed, and the circuit configuration of the base 3 and the circuit configuration of the rod 1 including, for example, the configuration of the switch. The circuit configuration of the first instrument body 101 and the circuit configuration of the second instrument body 102 of Patent Document 1 can be the same.

  In the above-described example, the wide light distribution conversion body 2 is in the shape of a rotating body. However, it may be a polygonal shape (for example, an octagonal shape). In the above example, the rod 1 has a cylindrical shape, but it can also be a polygonal column shape (for example, an octagonal column shape), and these cases are also within the scope of the present invention. include.

  In the above-described example, the instrument body 1 has been described as a rod (that is, it has been described as a rod shape as an easy-to-carry shape), but in practice, the instrument body 1 is limited to a rod shape. It can be designed in any shape such as a truncated cone, regular hexahedron, and gourd shape.

  The present invention can be used for general lighting and the like.

DESCRIPTION OF SYMBOLS 1 Appliance main body 2 Wide light distribution conversion body 3 Base 4 Power cord etc. 5 Hole 6 Feeding connection part 7 Power receiving connection part 11 Light source 12 Light emitting surface 13 Secondary battery 14 Switch 15 Lighting part (lighting circuit)
Reference Signs List 16 Power Feed Circuit 17 Charge / Discharge Circuit 21 Receiving Portion 22 Light Incoming Surface 23 Light Guide

Claims (4)

An instrument body in which a light source that emits light is provided on one end side, a wide light distribution converter that is detachably attached to one end side of the instrument body, and the other end of the instrument body The light source provided on one end side of the instrument body, the optical axis is parallel to the longitudinal direction of the instrument body, and the light emission direction is The wide light distribution conversion body receives light emitted from the light source provided on one end side of the instrument main body, on the side opposite to the other end side of the instrument main body. It has a light guide with a light incident surface,
The base is provided with a power supply connection for supplying power to the instrument body,
The instrument body is connected to the power supply connection portion of the base and receives power from the power supply connection section of the base when the other end side of the instrument body is held by the base. At least a connecting portion, a secondary battery, a switch, and a lighting portion that turns on the light source, and when the other end portion side of the instrument body is held on a base, the power receiving connecting portion is The power supply from the power supply connection part of the base is charged to charge the secondary battery, and when the switch is turned on, the power supply from the power supply connection part of the base is supplied to the lighting part to turn on the light source Even if the other end side of the instrument main body is removed from the base or the other end side of the instrument main body is held by the base, no external power is supplied to the power feeding connection portion of the base Sometimes, when the switch is on, the secondary battery Luminaire, characterized in that giving et discharge to the lighting unit is adapted to turn on the light source. The lighting fixture according to claim 1, wherein the fixture body has a convex light output surface from a light source provided on one end side of the fixture body, and the wide light distribution conversion. The lighting device according to claim 1, wherein the light incident surface of the body has a concave shape that matches (matches) the convex light emitting surface of the device main body. The lighting fixture according to claim 1 or 2, wherein an optical axis of the light source of the fixture main body and a central axis of the wide light distribution converter coincide with each other. The lighting fixture according to any one of claims 1 to 3, wherein the wide light distribution converter guides light from the light source of the fixture main body to the entire wide light distribution converter by total reflection. A luminaire characterized by being made to let.

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