JP2520608Y2 - Lighting equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention relates to a lighting device.

[Summary of the Invention] The lighting device of the present invention allows the transmittance of each liquid crystal element of the liquid crystal element section to be controlled to various predetermined states, and the illumination light from the light source (lamp section) transmits through the liquid crystal element section. And output it. Therefore, by controlling the transmittance of the liquid crystal element section according to the operation, the light quality of the illumination light can be variously changed.

[Prior Art] Conventional lighting devices used in theaters, discos, live houses, show windows, etc.
In order to convert the light quality of the projection pattern, iris, shutter, fader, etc., dedicated mechanical parts are attached to the lamp house.

For example, as shown in FIGS. 7 (a) and 7 (b) as a front view and a side view, the lighting device 1 is provided with a color disk 2a and a pattern disk 2b provided with color filters and pattern filters of a predetermined type. By rotating the disk drive units 3a and 3b, the filter of the desired color and pattern is positioned on the optical axis of the illumination light output from the lamp unit 4, so that the illumination light of the predetermined color and pattern is generated. The light is projected through the lens unit 5.

[Problems to be Solved by the Invention] However, such a conventional lighting device has a drawback that large parts such as the above-mentioned disks 2a and 2b are required, which is an obstacle to downsizing of the lighting device. There is.

In addition, when performing light quality conversion such as color change or pattern change, since the disks 2a and 2b have to be driven to rotate, there is also a drawback that the operation time is slow, and in some cases, in music performances, plays, etc. Reduces the lighting effect of.

Furthermore, since the operating noise of the disk is generated to some extent, it is not suitable for use in a quiet environment.

[Means for Solving Problems] The present invention has been made in view of the above problems, and the inside of the lighting device is configured so that the illumination light emitted from the lamp house is output through the liquid crystal element part. Further, the transmittance of each liquid crystal element of the liquid crystal element section is controlled by the transmission control means based on the operation of the operation means, so that the color of the transmitted illumination light, the spot shape, the amount of illumination light, etc. It is designed so that the quality can be changed.

[Operation] By changing the display state in the liquid crystal element part, a desired light quality conversion filter can be electrically produced, and mechanical filter replacement becomes unnecessary.

[Embodiment] FIG. 1 shows an embodiment of an illumination device of the present invention, showing a light unit 10 thereof. Reference numeral 11 is a lighting lamp, 12 is a reflecting mirror, 13 is a heat ray (infrared) cut filter, 14 is an LCD (liquid crystal display), and 15 is a light projecting lens.

As can be seen from the figure, the illumination light emitted from the lamp 11 is focused in one direction by the action of the reflecting mirror 12, and after the infrared ray component is attenuated by the heat ray cut filter 13, it is passed through the LCD 14 and the projection lens unit 15. Then, the light is output from the light unit 10 to illuminate. Therefore, the illumination light is variously converted in accordance with the display operation of the LCD 14, that is, the change of the transmittance of each liquid crystal element.

 An example of the LCD controller in this embodiment is shown in FIG.

Reference numeral 20 denotes a control signal generator that generates a control signal for LCD display, and assuming that the LCD 14 is a color filter LCD, blue is displayed on the LCD 14 according to the operation switch S ₁ .
A control signal is generated so that colors such as red, yellow, green and pink are displayed. (If it is LCD for pattern filter,
For example, a control signal for displaying a pattern such as a star shape, a cross shape, and a triangle is generated according to the operation switch S ₁ . ) The control signal generator 20 is constituted by a memory means such as a ROM or a RAM storing various control data to be displayed as described above, and the control data may be read according to the operation switch S _1. Good.

Reference numeral 21 is a control signal processing unit for processing the supplied control signal for LCD display, and 22 is a LCD 14 in which liquid crystal display elements are arranged in a matrix to sequentially apply a voltage in the vertical and horizontal directions and to provide a display signal. By LC
It is an LCD driver that causes a display operation on D14.

By connecting the switch S ₂ to the terminal b, an external control signal or a control signal set by manual operation can be input. Therefore, in the LCD 14, for example, the control signal generator 20 in the ROM system is input. Not only the display by the prepared control signal but also various desired displays can be set.

When the LCD control unit is configured as described above, if the user wants to convert the quality of the illumination light, the user
It is only necessary to select the connection terminals ~ in the operation switch S ₁ . That is, as described above, since the control signal is generated from the control signal generation unit 20 in accordance with the operation of the operation switch S ₁ , a display based on the control signal is displayed on the LCD 14 (change in transmittance of each liquid crystal element). Therefore, the LCD 14 acts as a filter for light quality conversion. As described above, since the light quality conversion is achieved by the display conversion on the LCD 14, the device such as the conventional large disk is not required, and the conversion operation can be remarkably speeded up.

Hereinafter, a specific usage example of the lighting device of the present embodiment will be described.

(A) When the LCD 14 is used as a color filter LCD.

As described above, the control signal generating section 20 outputs a control signal for displaying blue, red, yellow, green, etc. along with the selection terminals of the operation switch S _{1, and} the selected color is displayed on the LCD 14. To be done. Therefore, the illumination light output from the light unit 10 is converted into the selected color.

(B) When the LCD 14 is used as a pattern filter LCD.

Similarly, the control signal output from the control signal generator 20 is selected by the operation switch S ₁ and displayed on the LCD 14.
In this case, for example, in order to perform the pattern display as shown in FIG. 3, the liquid crystal display element corresponding to the shaded portion (or other than the shaded portion) in the figure is controlled so as to reduce the transmittance, shield the light, or make it semi-transparent. The signal is output.

(C) When the LCD 14 is used as an iris LCD.

Similarly, along with the operation switch S ₁ , from the small circle as shown in FIG. 4A to the large circle as shown in FIG. . It should be noted that the light projecting area is not necessarily a circle, but may be a square, for example.

(D) When the LCD 14 is used as a shutter LCD.

All the liquid crystal elements of the LCD 14 are controlled in two steps, that is, whether they are transmitted at the same time or shielded. That is, the illumination light is turned on / off.

(E) When LCD14 is used as a fader LCD.

The transmittance of all liquid crystal elements of the LCD 14 is changed at the same time, and the LCD 14 can be controlled in stages from a transparent state to a semitransparent state or a light-shielded state.

When the LCD 14 is used as a single function filter, such a thing is possible, but it is also possible to combine two or more functions.

For example, LC to make pattern lighting with color added
It is also possible to display a color pattern on the D14 (color + pattern), or to control the projection area of color illumination (color + iris).

Further, as shown in FIG. 5, a plurality of LCDs 14a and 14b may be provided so that the respective functions are shared. The LCD 14 and a conventional mechanical filter such as an iris or a shutter may be used together.

The position of the LCD 14 may be on the output side of the light projecting lens unit 15 as shown in FIG. In addition, the light projecting lens unit may not be provided in some cases.

[Effects of the Invention] As described above, the lighting device of the present invention uses the LCD as a filter for light quality conversion. Therefore, the size of the device is reduced, the speed of light quality conversion operation is increased, and the operation sound during conversion is increased. And the effect of diversifying the lighting conditions that can be realized (illumination color, spot shape, illumination light intensity setting and continuous change of light intensity, etc.), and further enhance the effect during use. There is also an advantage that is possible.

[Brief description of drawings]

FIG. 1 is an explanatory view showing an embodiment of the present invention, FIG. 2 is a block diagram showing an LCD control system of the embodiment, and FIGS. 3 (a) to (c) are explanatory views of a pattern display. (A) and (b) are explanatory views of the iris control, FIG. 5 is an explanatory view when a plurality of LCDs are used, and FIG. 6 is an explanatory view when the LCDs are arranged in the latter stage of the light projecting lens section, FIG. (A) (b) is explanatory drawing of the conventional illuminating device. Reference numeral 10 is a light unit, 11 is a lamp, 12 is a reflecting mirror, 13 is a heat ray cut filter, 14 is an LCD, 15 is a projection lens unit, 20 is a control signal generation unit, 21 is a control signal processing unit, and 22 is an LCD drive unit. Indicates.

Claims (1)

(57) [Scope of utility model registration request] 1. An illumination light source, a liquid crystal element part arranged so that illumination light from the illumination light source is transmitted, an operating means, and each of the liquid crystal element parts according to an operation of the operating means. By controlling the transmittance of the liquid crystal element, there is provided a transmission control means capable of changing the color, the spot shape, or the amount of illumination light of the illumination light transmitted through the liquid crystal element section. Lighting equipment.