JPS62217232A - Measurement of diffusion light for copying camera - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a method for measuring diffused light in a copying camera for figure reproduction, and this copying camera has three relatively movable surfaces; That is, it includes an image forming surface, an H-image surface, an object surface, a bellows, and a support having one or more light emitters.

[Conventional technology]

Diffused light is light reflected from a portion of the document surface other than the portion corresponding to the image formation surface, and is the amount of light that illuminates a relatively small portion of the image formation surface.

[Problem that the invention seeks to solve]

Calculating the amount of diffused light is known. However, this calculation is not always accurate because the diffused light depends on conditions such as the document, the shape and size to be enlarged), dust, and the aperture (refraction).

When calculating exposure time with respect to the screen.

It is very important to know exactly about diffused light.

A method for correcting exposure time is described, for example, in Danish Patent Application No. 2559/84. However, this correction method is relatively time consuming and does not take into account all factors that affect diffuse light.

[Means for solving problems]

The invention provides a method characterized in that the luminous intensity is measured in an imaging plane corresponding to the "black" area of the document surface, taking into account all factors that influence the diffused light. be.

[For production]

According to the method of the invention, only the diffused light is measured depending on various parameters of the copying camera, so that a more direct measurement is made.

In order not to reduce the diffused light, the black area must be made small. Otherwise, it will affect the '/1llJ constant.

The black portion on the document surface may be a reflective mirror.

〔Example〕

Next, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The copying camera shown in FIG. 1 is equipped with a support (9) erected from a support base (2), and a fixed table (3) having a glass plate (4) is provided at the upper end of the support (9). ing. A sheet-like photosensitive material can be placed on the glass plate (4), and the photosensitive material is fixed by closing the lid plate (5).

The objective lens (6) supported by the bellows (7) can be moved in the vertical direction. A table (8) is provided below the objective (6), which table (8) is supported by vertical guides or columns (9). Therefore, the table (8) can slide vertically.

A manuscript such as a drawing is placed on a glass plate (10) on a table (8), and is projected and copied onto the glass plate (4) using an objective lens (6).

The original is placed on the light emitter (1) provided at the tip of the rotating arm (11).
2).

To adjust the position of the camera, the table (8) is moved vertically by means of a mechanism and handle wheel not shown.

The vertical position of the objective lens (6) and the table (8) can be read on a dial.

As shown in FIG. 3, the fixed table (3) has a rotating arm (15), and an optical sensor (16) is attached to the tip thereof.

A photosensitive sheet is placed on the glass (4) of the fixed table (3), and the rotating arm (15) is rotated on a plane parallel to the plane on which the image of the original is formed. 1
6) Adjust the position.

In order to calculate the auxiliary exposure (flash exposure or bump exposure) for the screen of a copying camera, it is absolutely necessary to know about the diffuse light.

This is because auxiliary exposure is associated with diffused light.

Diffused light comes from the original, the shape to be enlarged @), dust, and the aperture (
refraction), adjustment of the illuminant, and compression of the bellows.

According to the present invention, the diffused light is measured by measuring the luminous intensity of the imaging plane corresponding to the black portion (17) on the document surface.

The black part (17) may be a reflective mirror. This is because the light emitter is placed next to one reflector. The black part (17) may be a black shadow intercup.

In this way, only diffuse light is measured. Diffused light is 1
Typically accounts for 1-5% of video exposure, more typically 2%
It is. Also, depending on the values of various parametric variables of the copying camera,
Can measure diffused light.

FIG. 4 shows the proportion of diffused light corresponding to stretching. As can be seen, the diffused light increases with stretching.

The black area (17) must be as small as possible so as to cause little reduction in the diffused light. Otherwise, the measurement will be affected.

It is desirable that the black portion (17) be provided at a position where the optical axis intersects with the surface of the document.

According to the invention, a method is provided in which diffused light can be measured in a very simple manner.

The measurement of the diffused light is carried out under conditions corresponding to the required exposure, such as the degree of stretching, the dimensions of the document and the degree of dust adhesion, and the state of reflection inside the bellows.

Diffuse light factor is obtained by dividing the diffuse light by the main exposure. Therefore, this main exposure must also be measured.

The auxiliary exposure rate (flash rate) is modified by the diffuse light rate.

The method of the present invention can be implemented with various changes without departing from the spirit of the present invention.

[Brief explanation of drawings]

FIG. 1 shows a copying camera used in practicing the present invention. FIG. 2 is a diagram illustrating diffused light in the copying camera. FIG. 3 shows a slidable light sensor for measuring diffused light in the imaging plane. FIG. 4 is an example diagram showing how diffused light is affected by 5-enlargement. (2) Support stand (3) Fixed table (
4) (to) Glass plate (5) Lid plate (6) Objective lens (Power bellows (8) Table
(9) Support column (11) Rotating arm (12
) Light emitter (15) Swivel arm (16) Optical sensor (17) Black part

Claims (6)

[Claims] (1) Three relatively movable parts, namely the imaging surface (4), the original surface (8), and the object surface (6), and the bellows (7).
), and a method for measuring diffused light in a graphic copying camera comprising a support having one or more light emitters (12), the method comprising: forming an image corresponding to a black area (17) on a document surface (8); Face (4)
A measurement method characterized by measuring illuminance. (2) The method for measuring diffused light in a copying camera according to claim (1), wherein the black portion (17) on the document surface (8) is relatively small. (3) Claims (1) or (2) characterized in that the black portion (17) of the document surface (8) is a reflecting mirror.
) A method for measuring diffused light in a copying camera as described in item 2. (4) Diffusion in a copying camera according to claim (1) or (2), characterized in that the black portion (17) of the document surface (8) is a black shadow intercup. How to measure light. (5) The diffused light rate is obtained by dividing the diffused light by the main exposure.
4) A method for measuring diffused light in a copying camera according to any one of items 4). (6) A method for measuring diffused light in a copying camera according to claim (5), wherein the auxiliary exposure rate (flash rate) is corrected by a diffused light rate.