JPH0640196B2 - Exposure control device - Google Patents

Description

The present invention relates to an exposure control device in a color copying machine.

[Background of the Invention]

An image light carrying a color original image is projected onto a color photosensitive material to expose the color photosensitive material, and then the color photosensitive material is processed in a process processing section such as development / fixing to obtain a color copy image. Obtainable.

In such a color copying machine, it is required that the color of the image light can be corrected according to the spectral sensitivity characteristics of each color of the color photosensitive material and that the density can be adjusted.

As the hue control for this purpose, a method of inserting a three-color filter in the optical path of the image light and controlling the insertion amount (ratio) thereof is adopted.

A film that blocks a specific hue wavelength is used as such a three-color filter. Specifically, a yellow filter that blocks blue light, a magenta filter that blocks green light, and a cyan filter that blocks red light are used. used.

On the other hand, as the density (light amount) adjustment, there are a method of putting a stop in the optical path and a method of directly controlling the light source, but the latter is preferable from the viewpoint that no mechanism is involved.

However, when directly controlling the light source, it is necessary to change the power supply voltage, but for halogen lamps, etc., the color temperature characteristics change when the power supply voltage is changed,
There is a possibility that the above-mentioned hue control may be out of order.

[Object of the Invention]

An object of the present invention is to directly control a light source for light quantity adjustment,
An object of the present invention is to provide an exposure control device in which hue adjustment is performed so that the color balance with respect to the photosensitive material is appropriate.

[Structure of Invention]

For this purpose, the exposure control apparatus of the present invention uses a light source whose color temperature changes due to a change in applied voltage, adjusts the light amount by adjusting the voltage of the light source, and allows one or two types of color filters to move in and out of the optical path. In the exposure control device for adjusting the hue to obtain a color balance suitable for the light-sensitive material, the amount of insertion of the one or two kinds of color filters into the optical path is determined according to the voltage adjustment. It is configured to include a program for adjusting hue.

〔Example〕

Examples of the present invention will be described below. FIG. 1 is a diagram showing an exposed portion in a color copying apparatus, in which a color original (not shown) placed on a platen glass 1 is exposed and scanned by a light source 2 which moves at a constant speed in the direction of arrow a. The image light obtained by the reflection is integrated with the light source 2, the mirror 3, the integrated mirrors 4 and 5 for transferring in the same direction as the moving direction of the light source 2 at a temperature half the moving speed thereof, and the lens, After passing through the lens system 6 having a filter, the light enters the exposure window 7.

Then, in the exposure window 7, the color light-sensitive material moves in the direction of arrow b in synchronization with the movement of the light source 2, and the light-sensitive material is sequentially exposed during the movement.

Therefore, if this color light-sensitive material is then sent to a process processing section for color development, fixing, bleaching, drying, etc., a color copy image corresponding to a color original can be obtained.

FIG. 2 shows the details of the lens system 6 described above. The first filter plate 61 and the second filter plate 6 are arranged along the optical path c.
2 and the lens 64 are arranged.

As shown in FIG. 3, the first filter plate 61 has a yellow (hereinafter referred to as Y) filter 61Y and a magenta (hereinafter referred to as M) filter 61M at both ends, and a transparent portion 61T at the center. Also, the second filter plate 62 has a Y filter 62Y and a cyan (hereinafter C
Called. ) A filter 62C is arranged, and the center is transparent 6
It is 2T.

Then, the both filters 61 and 62 are the M filters 6
The home position is a position where the center of 1M and the center of the C filter 62 coincide with the optical axis c, and each of them can be moved by the stepping motors 65 and 66 in the opposite directions of arrows d and e (left and right directions crossing the optical path c). Has become.

Therefore, by appropriately controlling both the stepping motors 6566, there is no filter in the optical path c ... No hue correction.

Insertion amount of one of Y, M, C 0-100%
... One kind of hue and saturation correction.

A combination of two types of filters among three types of Y, M, and C, that is, a combination of 0 to 100% of each insertion amount of Y and M, a combination of 0 to 100% of each insertion amount of M and C,
A filter can be inserted by combining 0 and 100% of C and Y respectively.

In this color copying machine, when the copy start switch of the console is turned on, the filter and the insertion amount thereof are calculated during the timer time T ₀ , and the voltage value of the light source 2 for determining the light amount is calculated as shown in FIG. Is performed and its timer time T ₀
When the control is completed, the first filter plate 61 is controlled based on the above calculation, and when this control is completed, the second filter plate 62 is controlled based on the same calculation as described above. The voltage is controlled based on the above calculation. Then, after this, the light source 2 starts exposure scanning.

Next, a method for creating a color filter control program will be described. FIG. 5 shows the light transmission characteristics of the Y, M, and C filters. As is clear from this figure, blue (B) is inversely proportional to the insertion amount of the Y filter in its intensity (light amount), green (G) is inversely proportional to the insertion amount of the M filter, and red (R) ) Is inversely proportional to the insertion amount of the C filter.

Color C obtained by inserting each filter plate 61, 62 into the optical path
L ₀ is given by CL ₀ = a ₀ Y + b ₀ M + c ₀ C (1) a ₀ : F value of Y filter b ₀ : F value of M filter c ₀ : F value of C filter. The F value indicates the amount of insertion, so that each F
The value is determined in advance according to the spectral sensitivity characteristic of each color of the color photosensitive material to be used, and the hue at this time is set to a preset value.

Note that, as described above, the filter uses two kinds out of three kinds, so it is necessary to replace the remaining one kind with the other two kinds. Therefore, the filter having the smallest F value (the filter having the smallest insertion amount) is replaced with the other two types. For example, a ₀ <b
_{If 0} <c ₀ , the formula (1) becomes CL ₀ = −a ₀ (M + C) + b ₀ M + c ₀ C = (b ₀ -a ₀ ) M + (c ₀ -a ₀ ) C Since (2), the hue is adjusted with the M filter and the C filter. This is the actual preset value of the filter corresponding to the color light-sensitive material used.

As a result of the above, color correction by the filter is performed corresponding to the color development characteristics of each color of the color photosensitive material.

The above is the case where the voltage of the light source is constant. Next, a case will be described in which the voltage of the light source is changed to change the light amount, and thereby the density is adjusted. In this case, if the voltage changes, the color temperature of the light source 2 also changes. Therefore, the color correction is similarly performed according to the change in the color temperature.

The color temperature change will be described below. In FIG. 6, (a) shows the color temperature characteristic of the halogen lamp used as the light source 2, the broken line shows the characteristic when the applied voltage is 80 v, and the solid line shows the characteristic when the applied voltage is 60 v. Comparing these two characteristics, it can be seen that the lower the voltage, the stronger the intensity on the long wavelength side than the other wavelength regions. That is, the lower the voltage, the more reddish hue.

Therefore, the intensity at which the photosensitive material used is neutral (this intensity is equivalent to the light transmittance for the filter) is set to N as shown in FIGS. 6 (b) and 6 (c). At this time, when the power supply voltage of the halogen lamp is 60v (b)
It is assumed that the characteristics shown in (2), that is, the light in the blue B area is neutral, the light in the green G area is slightly strong 2G, and the light in the red R area is fairly strong 3B.

At this time, the Y filter that blocks the blue B is not inserted (0Y), and the M filter that blocks the green G is 2M,
If only 3C of the C filter that shields red is inserted, the portions stronger than the neutral N are canceled out, and the intensities of the three primary colors are arranged in the neutral N. In other words, the color balance of the photosensitive material is obtained.

Here, if the power supply voltage of the halogen lamp 1 is increased from 60v to 80v in order to reduce the concentration, for example, BGR
As shown in FIG. 6 (c), for example, the light in the region of blue B is 1B, the light in the region of green G is 4G,
The light in the red R region becomes 6R.

Therefore, in this case, when the Y filter for blocking the blue B is set to the neutral N '(new density standard) to be obtained, of course, the Y filter for blocking the blue is not turned on for the purpose of color balance. M to shield the green G from light
If only 3M of filters and 5C of C filters that shield red are inserted, portions stronger than the neutral N'corresponding to the set density are offset, and the intensities of the three primary colors are arranged in the neutral N '.

As described above, when the power supply voltage of the light source is changed to adjust the density, that is, the amount of light, the color balance suitable for the photosensitive material can be maintained by adjusting the amount of the filter input at the same time.

Since the color temperature characteristic of the light source is known, the correction amount by the filter corresponding to the change in the BGR intensity with respect to this color temperature characteristic is written in advance in a memory (ROM or the like) as a table and the hue adjustment including the density adjustment is performed. If the program control is performed, the filter is controlled at the same time when the power supply voltage is adjusted to change the light amount, and the color balance is always maintained.

〔The invention's effect〕

As described above, according to the present invention, if the voltage of the light source is adjusted to adjust the light amount, the color balance can be adjusted at the same time, and the proper color balance can be maintained.

[Brief description of drawings]

FIG. 1 is an explanatory view of an exposure scanning portion for an original of a color copying apparatus of an embodiment to which the invention is applied, FIG. 2 is a detailed view of a lens system portion in FIG. 1, and FIG. 3 is a driving plate explanatory view of a filter plate. , FIG. 4 is a timing chart of the operation of the filter plate and the light amount adjustment, FIG. 5 is a light transmission characteristic diagram of three types of filters YMC, FIG. 6 (a) is a diagram showing the color temperature characteristic of the light source, (b) When
(c) is an explanatory diagram of color balance correction.

Claims (1)

[Claims] 1. A light-sensitive material is used by using a light source whose color temperature changes according to a change in applied voltage, adjusting the light amount by adjusting the voltage of the light source, and introducing one or two color filters in and out of the optical path. In an exposure control device adapted to perform hue adjustment for obtaining color balance, a program for performing the hue adjustment by determining the insertion amount of the one or two types of color filters in the optical path according to the voltage adjustment. An exposure control apparatus comprising.