JPH03272510A - Illumination fixture - Google Patents

Abstract

PURPOSE:To vary the light projecting direction easily and simplify the configuration by feeding electricity to a light source using a conductive arm, and supporting a lightweight mirror rotatably around a casing. CONSTITUTION:A casing 4 is installed at a plug 1 rotatably through a rotary shaft 3, and a low voltage power supply part is incorporated in this casing 4. An arm 6 for electricity feeding and supporting is electrically connected with this power supply part and installed rotatably. A lightweight mirror 14 and a light source 16 are supported by this arm 6 borne rotatably, and the light projecting direction is varied. From the power supply part the power is supplied to the light source 16 via the arm 6 which is electroconductive, wherein the light source 16 is arranged oppositely to the lightweight mirror 14 in optical terms. Thereby the configuration can be simplified.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Application Field) The present invention relates to a lighting fixture in which an arm body to which a light source is attached is rotatable.

(Prior art) Conventional lighting equipment of this type has an arm body attached to the housing.
A mirror was attached to this arm body so as to be optically opposed to the light source. Further, a power line is used to supply power to the light source.

(Problems to be Solved by the Invention) However, in the case of the above-mentioned conventional configuration, the power supply line has to be attached to the arm body, which makes the configuration complicated.

The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide a lighting fixture that has a rotatable lightweight mirror and can be configured simply.

[Structure of the invention]

(Means for Solving the Problems) A lighting fixture of the present invention includes a casing in which a power supply section is housed,
A conductive arm body is electrically connected to the power supply section of the housing and rotatably supported, and the arm body is optically opposed to the light source electrically connected to the arm body. The mirror is attached to the arm body and is made of a thin member.

(Function) In the present invention, a lightweight mirror and a light source are rotatably supported by an arm body, and the irradiation direction can be varied. Further, power is supplied from the power supply section to a light source optically arranged opposite to the lightweight mirror via the conductive arm body.

(Embodiment) An embodiment of the lighting fixture of the present invention will be described below with reference to a spotlight type lighting fixture shown in the drawings.

In FIG. 1 and FIG. 2VA, 1 is a plug that is attached to a ceiling or the like and is made into a power distribution track, and this plug 1 is provided with an operating section 2 for attaching and detaching the plug. Also, plug 1
is provided with a housing 4 rotatable via a rotation shaft 3, and a power supply unit 5 that supplies low-voltage power to the housing 4.
is built-in. Further, an arm body 6 for power supply and support is electrically connected to the power supply section 5 and is rotatably attached. This arm body 6 has a support shaft 7 that protrudes inward, and holds the casing 4 from both sides, and has a pair of upper arm parts 9 connected at one end with an insulator 8, and this upper arm part. 9, and a pair of lower arm portions 11 of conductors rotatably connected via a first hinge portion 10. The first hinge portion 1o includes the left and right upper arm portions 9 and the lower arm portion 11.
The upper arm part 9 and the lower arm part 11 on the right and left sides are electrically connected to each other.

Furthermore, at the tip of the lower arm portion 11 of the arm body 6,
A pair of attachment bodies 13 are connected via the second hinge portion 12 . This second hinge portion 12 also includes the left and right lower arm portions 11 and the mounting body 1, similar to the first hinge portion lO.
3 are electrically insulated, and the right and left lower arm portions 11 and the mounting body 13 are electrically connected. Furthermore, a dichroic mirror 14 made of plastic or the like as a lightweight mirror is attached to the mounting body 13 in an insulated manner. In addition, the mounting body 13 includes
A porcelain socket 15 is attached, and this porcelain socket I5
A 12V lamp 16 as a light source is attached to the dichroic mirror 14, and is arranged optically opposite to the dichroic mirror 14.

Note that the dichroic mirror 14 has a wall thickness of 12 mm, for example.
A light-absorbing layer made of titanium carbide, silicon carbide, or a chromium compound formed on a substrate made of a thin member made of a light-transmitting or non-light-transmitting material such as 5μ heat-resistant plastic or aluminum, and this light-absorbing layer. It is composed of an optical multilayer film formed on the surface of the layer. This optical multilayer film is made of, for example, a titanium oxide (TiO□) film layer and a silicon oxide (Sin oxide) film layer.
2) It is constructed by laminating film layers alternately, and depending on the thickness of these film layers and the number of film layers, out of the luminous flux from the lamp]6,
It reflects visible light and transmits infrared light.

In addition, when a translucent plastic is used, it may be made to transmit light to the outside. And in the lamp 16,
From the left and right upper arm portions 9 to the respective first hinge portions 1
0, electric power is supplied through the lower arm portion 11, the second hinge portion 12, and the mounting body 13.

Next, the power supply unit 5 will be explained with reference to FIG.

This power supply section 5 is connected to a commercial AC power source 2 through a connection plug (not shown), and is connected to a filter 23 through a fuse 22. This filter 23 is composed of a Zener diode 24, a capacitor 25, an inductor 26, and a Zener diode 27. Also,
A rectifier circuit 28 such as a diode bridge is connected between the output terminals of this filter 23, and between the output terminals of this rectifier circuit 28 are connected the collector-emitter of transistor 3, the resistor 32, the collector-emitter of transistor 33, and A resistor 34 is connected, and feedback diodes 35 and 36 are connected between both ends of the transistor 31 and the resistor 32, and between both ends of the transistor 33 and the resistor 34, respectively.

The primary winding 37 of the saturable current transformer 37 is connected to the connection point of the feedback diodes 35 and 36! The first secondary winding 37b of the saturable current transformer 37 is connected between the base of the transistor 31 and the emitter of the transistor 31 via the resistor 32, and the base of the transistor 33 and the emitter of the transistor 31 via the resistor 34. A second secondary winding 37c of a saturable current transformer 37 is connected between the emitters of the transistor 33. Furthermore, the second secondary winding 37c includes an auxiliary winding 37d.
and a series circuit of thyristor 38 are connected, the gate of this thyristor 38 is connected to the emitter of the transistor 33 via a Zener diode 39,
A parallel circuit of a resistor 41 and a capacitor 42 is connected between the gate and cathode of the transistor 8. In addition, the rectifier circuit 28
A series circuit of a resistor 43 and a capacitor 44 is connected between the output terminals of the resistor 43 and a capacitor 44. A diode 45 is connected between the connection point of the resistor 43 and the capacitor 44 and the collector of the transistor 33. A constant voltage element 46 is connected between the connection point and the base of the transistor 33. Furthermore, the rectifier circuit 2
Between the output terminals of 8, two voltage dividing capacitors 51,
52 are connected in series, and the connection point of these capacitors 51 and 52 is connected to the input winding 531 of the step-down output transformer 53.
The other end of this input winding 531 is connected to the other end of the primary winding 37R of the saturable current transformer 37. The lamp 16 is connected to the output winding 53b of the output winding 53 via the arm body 6.6.

Next, the operation of the above embodiment will be explained.

First, the upper arm portion 9 is rotated around the support shaft 7, and the first
Rotating the hinge part 10 and the second hinge part 12,
The position of the dichroic mirror 14 is changed to vary the irradiation angle. At this time, the dichroic mirror 14 is formed to be lightweight, and even if the position of the dichroic mirror 14 is changed, it is always balanced and set at an arbitrary position.

In this state, when the power is turned on, the 100μ AC from the commercial AC power supply 21 passes through the filter 23 and is rectified by the rectifier circuit 28. When the capacitor 44 is charged, the constant voltage element 46 is turned on and the transistor A base current is supplied to transistor 33, and transistor 33 is turned on. Then, the primary winding 371 of the saturable current transformer 37 is saturated, turning on the transistor 31, and then turning on the transistor 31 and the transistor 33 alternately, so that the output winding 53b of the output transformer 53 is turned on. A low voltage of 12V is induced, and the lamp 16 is lit at high frequency via the power supply line 5.

The light from the lamp 16 is irradiated onto a dichroic mirror 14, which reflects visible light and transmits infrared rays to prevent the irradiated object from being heated.

For example, when the arm bodies 6 are short-circuited, the Zener diode 39 is turned on and the thyristor 38 is turned on, so that the base current of the transistor 33 is stopped, the transistor 33 is turned off, and the output from the power supply section 5 is is stopped to prevent danger from short circuits.

Further, in the above embodiment, the output of the power supply section is stopped in the event of a short circuit, but the output may be simply reduced without being stopped.

〔Effect of the invention〕

According to the lighting device of the present invention, the conductive arm supplies power to the light source, and the light mirror is rotatably supported using the casing as a fulcrum, so the irradiation direction can be easily varied and the configuration can be adjusted. You can simply do it.

[Brief explanation of drawings]

FIG. 1 is a front view showing one embodiment of the lighting device of the present invention, FIG. 2 is a top side view of the same, and FIG. 3 is a circuit diagram showing the power supply section of the same. 4. Housing, 5. Power supply section, 6. Am body, 14.
- Dichroic mirror 16 as a lightweight mirror...Lamp as a light source.

Claims (1)

[Claims] (1) A casing in which a power supply unit is housed; a conductive arm body that is electrically connected to the power supply unit of this casing and rotatably supported; 1. A lighting device comprising: a lightweight mirror formed of a thin member and attached to the arm body and optically opposed to a light source connected to the arm body.