JPH0383037A - Illuminating device - Google Patents

Abstract

PURPOSE:To uniformize brightness and to prevent image quality from being deteriorated by rotatably holding a lamp reflector provided with blade by a holding means and cyclically rotating it so that a metal halide lamp may be uniformly cooled. CONSTITUTION:A light source 3 consisting of the metal halide lamp 1 and the lamp reflector 2 is housed in a lamp house 6 by a lamp holding means 4 and a reflector holding means 5. The metal halide lamp 1 is fixed in the lamp house 6 independently of the lamp reflector 2, and the front part(light emitting side) and the rear part of the lamp reflector 2 are rotatably held by a bearing 8 incorporated in the reflector holding means 5. Furthermore, the lamp reflector 2 receives rotational torque from a motor 10 through a torque transmission part 9 and cyclically rotates. By rotating the blade part 12, air is sucked from a suction port 13 and the metal halide lamp 1 is cooled. Thus, optical characteristics such as the brightness and color temperature, etc., above and below a light emission tube is uniformized and the irregularity of color and the unevenness of illuminance are prevented.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an illumination device used in a projection type liquid crystal display device such as a liquid crystal color projector that projects and displays images.

[Prior Art] Conventionally, one sealing part of a metal halide lamp was inserted into the lamp fixing part of a lamp reflector, and the light source was fixed with cement, etc., and the light source was permanently stored in a lamp house.
A common method was to attach an external fan to the lamp house as a cooling means.

[Problems and Objects to be Solved by the Invention] However, when a metal halide lamp is lit according to the prior art, the lower part of the arc tube becomes colder and the upper part of the arc tube becomes hotter due to the convection phenomenon within the arc tube.

As a result, in a permanently fixed state, the same surface is always exposed to high temperatures. For example, in the case of a 150W metal halide lamp, it is always exposed to high temperatures of 1000" C or more. Therefore, only the upper part of the quartz glass that forms the arc tube is The devitrification phenomenon occurs, causing a difference in brightness between the top and bottom of the arc tube, and
Lamp life will also be shortened. This is because even if a fan is used for cooling, since the lamp is surrounded by reflectors, there is almost no air flow and there is almost no cooling effect. or,
When a metal halide lamp is lit, all of the metal halides destined for the arc tube do not emit twin flames and remain in liquid form in the lowest temperature region, resulting in optical properties such as brightness and 7 color density at the top and bottom of the emissive tube. make a difference.

When such a metal halide lamp is used as a lighting device for a projection type liquid crystal display device such as a liquid crystal color projector, the optical properties of the metal halide lamp appear in the projected image as is, resulting in uneven illuminance and two-color unevenness, resulting in a decrease in image quality. There are problems such as:

The lighting device of the present invention solves the above problems, and its purpose is to uniformly pass cooling air around the arc tube, so that there is no difference in optical characteristics between the upper and lower parts of the arc tube, making it simple and convenient. An object of the present invention is to provide a small-sized lighting device that does not cause deterioration in image quality such as uneven illuminance or unevenness in one color in a projected image on a projection type liquid crystal display device such as a liquid crystal color projector.

"Means for Solving the Problems" In order to solve the above problems, the lighting device of the present invention includes a light source consisting of a metal halide lamp and a lamp reflector, a lamp house that houses the light source, and a cooling device that cools the light source. The lamp reflector is held by a holding means as a cooling means, and is periodically rotated by a rotating means (t).

[Function] In the lighting device with the above configuration, the lamp reflector
The is rotated periodically by the rotating means while the metal halide lamp is lit, so air is sucked in from the rear of the lamp reflector, uniformly cooling the arc tube of the metal halide lamp, and the hot air is pumped out of the lamp house. to be discharged. Therefore, there is no temperature difference between the upper and lower parts of the arc tube of the metal halide lamp, and there is no difference in optical characteristics between the upper and lower parts.

[Implementation fM] The embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram of the present invention. The light source 3 is composed of a metal halide lamp 1 and a lamp reflector 2.
It is housed inside the lamp house 6 by the lamp holding means 4 and the reflector holding means 5. The metal halide lamp 1 is installed in the lamp house 6 independently of the lamp reflector 2.
The metal halide lamp 1 is fixed inside and has the same optical axis as the lamp reflector 2, and the sealed portions at both ends thereof are held by lamp holding means 4. The picture electrode of the metal halide lamp 1 is connected to a lamp power source 7 provided outside the lamp house 6 via lead wires connected to the outside of the sealing portions at both ends, so that it can be lit.

The front part (light output side) and the rear part of the amplifier reflector 2 are both mounted on bearings 8 built into the rib reflector holding means 5.
It is rotatably held by. At this time, the rear part of the lamp reflector 2 is held so that the optical axis is the same as that of the metal halide lamp 1, and there is a gap through which air can flow.

The lamp reflector 2 rotates periodically by receiving rotational torque from a motor 10 via a torque transmission section 9 (the torque transmission section 9 and the motor 10 are referred to as rotation means 11).

Light output ff1N of lamp reflector 2 This is blade part 1
2, as it rotates, air is sucked in through the intake port 13 at the rear of the lamp reflector 2, passed through the gap between the metal halide lamp 1 and the lamp reflector 2, and is connected to the arc tube 18 of the metal halide lamp 1 (as shown in Figure 2). (shown) is cooled and discharged from the exhaust port 14. (The arrows in FIG. 1 indicate air flow.) In other words, the lamp reflector 2 is also used as a cooling means.

The metal halide lamp 1 requires cooling (especially cooling of the sealing part on the light output side) in order to obtain stable optical characteristics and the desired lifespan. Since the lamp 1 can be cooled uniformly, the above-mentioned temperature difference between the upper and lower sides does not occur.

FIG. 2 is a schematic diagram of the metal halide lamp 1. The metal halide lamp 1 has electrodes made of tungsten l115 and molybdenum foil 16 sealed with quartz glass 17, and a metal halide such as indium, zinc, scandium, neodymium, etc. based on mercury in an arc tube 18 formed hollow by the quartz glass 17. The brightness and color of the illumination light are determined by the absolute amount of mercury vapor and metal halide vapor and the mixing ratio between them when the lamp is turned on.

With the above configuration, when the metal halide lamp 1 is discharged and lit while the lamp reflector 2 is periodically rotated by the rotating means 11, a uniform air flow is generated from behind the lamp reflector 2, and the arc tube 18 is uniformly rotated. By cooling the quartz glass 15 to a temperature of 100.degree. C., the temperature difference between the upper and lower portions of the arc tube 18 due to the convection phenomenon is eliminated, and the partial devitrification phenomenon of the quartz glass 15 is eliminated.

Also, by eliminating the temperature difference between the top and bottom of the arc tube 18,
Metal halide inside the arc tube 18
Since all of the light is evaporated and there is a dissociation and bond equilibrium depending on the temperature during arc discharge, the entire arc tube 18 emits light with uniform brightness and one color density.

If such a lighting device is used in a projection type liquid crystal display device (for example, a liquid crystal color projector, slide projector, movie, etc.) that projects and displays images, it is possible to display high-quality images.

[Effects of the Invention] As explained above, the lighting device of the present invention has a structure in which the bladed lamp reflector is rotatably held by the holding means, and the metal halide lamp is lit by discharge while being periodically rotated by the rotating means. By sucking air from behind the light source and uniformly cooling the metal halide lamp, the temperature difference between the top and bottom of the arc tube due to convection phenomenon is eliminated, and the partial devitrification phenomenon of quartz glass 1. The vapor pressure inside the arc tube is reduced. Since there is no variation, optical characteristics such as brightness and color temperature can be made uniform between the top and bottom of the arc tube, and the life span can be extended.

Moreover, if this illumination device is used in a projection type liquid crystal display device such as a liquid crystal color projector, a projected image without deterioration in image quality such as uneven illuminance or color can be realized.

Furthermore, an external cooling fan as a cooling means is not required, and in addition to the above effects, a reduction in the number of parts and a reduction in size can be achieved.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, and FIG. 2 is a schematic diagram of a metal halide lamp in the embodiment of the present invention. Metal halide lamp lamp reflector - light source lamp holding means reflector - holding means lamp house lamp'gl source 8 ・ 9 ・ ・ 10 ・ 11 ・ 12 ・ 13 ・ 14 ・ 15 ・ l 6 ・ l 7 ・ 18 ・ ・Bearing/torque transmission parts, motors, rotating means, vanes, intake ports, exhaust ports, tungsten rods, molybdenum foil, quartz glass, arc tubes and above

Claims (1)

[Claims] In a lighting device comprising a light source consisting of a metal halide lamp and a lamp reflector, a lamp house for housing the light source, and a cooling means for cooling the light source, the lamp reflector is held by a holding means as a cooling means, and the lamp reflector is held by a holding means as a cooling means, and A lighting device that rotates periodically.