DE4120457A1 - Reproduction of images on material in different formats - using selection system to allow cathode ray tube image to be rotated through 90 degrees for reproduction on strip material - Google Patents

Abstract

The electron beam tube (1) generates an image output that is focussed (2) onto the surface of a photosensitive material (3) that is in strip form. The film is incremented after each exposure. The images can have two different size rectangular formats. In one format the small size is parallel to the edge of the material and in the other is transverse to it (3d). The rotation of the image through 90 degrees to provide this is provided by a switching unit (4), with a changeover between lenses (2, 2a) provided by a controller (5). USE/ADVANTAGE - In so called "customer laboratory". Allows different reproduction orientations.

Description

The invention relates to a method according to the The preamble of claim 1. In known methods will toggle between the two formats achieved the use of a rotating prism. A disadvantage of the known method is the mechanical effort to to move the rotating prism, as well as the necessary Time requirement.

Especially when automatically enlarging a large number of rectangular pictures on a carrier with given Images of any width and length can be used follow each other, the first in a first Format and the subsequent one in a second format different sizes to enlarge.

Such situations occur especially in so-called Kun denlabors when individual pictures from a series appear on Customer request in a larger format than the rest Pictures of the series should be enlarged.  

It is an object of the invention to provide a method where single pictures of a series in one size ren format can be enlarged without a time-consuming movement of the rotating prism is necessary.

This task is solved by the in the characteristic of the Invention described claim 1.

The invention adopts the knowledge that in an enlargement process in which that too magnifying image first into electronic image signals converted, then on an electron beam tube placed and from there on the photosensitive carrier is transmitted, the enlargement and the 90 ° rotation between the individual formats electronically can be done.

In a technically advantageous simple version of the Invention will change the position of the picture by swapping the horizontal and vertical deflectors of the Electron beam tube reached.

In a further development of the invention, the different size of the picture due to a change tion of the horizontal and vertical deflection current of the To achieve electron beam tube.

For certain applications it can be advantageous the different size of the picture by the  alternate use of lenses with difference to achieve optical reproduction standards. This is special especially advantageous when the image of the electro is too small to electronically ver to show larger image.

In a further development of the invention, that the electronic measures to turn the situation of the picture and to enlarge the picture in one Image processing unit take place that a digi tal image memory includes.

The invention is explained in more detail below with the aid of a figure explained. It shows:

Fig. 1 shows the basic structure of an apparatus for performing the method.

On an electron beam tube 1 an image is Darge and transferred via a lens 2 on a photosensitive carrier 3 enlarged. The carrier 3 has a predetermined width B and an undetermined length. In the ge example, the carrier 3 is on two rollers 3 a, 3 b. After exposure of an image on the photosensitive carrier 3 , the latter is correspondingly transported further, so that an unexposed area on the carrier 3 is available for the next enlargement process.

In the case of rectangular picture templates, it is possible to display a rectangular picture in two different sizes on the same support. In the smaller format, the longer side of the image corresponds essentially to the width B of the carrier 3 . An area corresponding to the narrow side of the image is exposed from the carrier 3 . When displayed in the second, larger format, the image is rotated by 90 ° and enlarged compared to the first format. For the narrow side of the image, the entire width B of the support 3 is now available, the exposed area on the support 3, it extends essentially over the long side of the image. In the drawing, the exposure area for the first format is numbered 3 c and identified by a cross hatch. The area 3 d for the second format is filled with a simple oblique hatching.

The rotation of the image position by 90 ° required for enlargement in the second format can be carried out in a switching unit 4 in a simple manner by interchanging the horizontal and vertical deflection signals.

The necessary enlargement to the second format, he then follows through a second lens 2 a, z. B. is brought into the beam path 6 via an electromagnet 5 a actuated by a lens control 5 .

If a sufficiently large picture tube 1 is used to display the second format 3 d, in addition to the electronic rotation of the picture, an electronic enlargement can also take place, for example, by increasing the horizontal and vertical deflection current in the amplifier unit 4 c.

The format changeover can also be achieved fully electronically without the use of mechanics by using a digital image processing device 7 . This device 7 processes the incoming image signals S and generates - separately for the vertical deflection 4 a and the horizontal deflection 4 b - the deflection signals required for displaying the image in the correct format and size.

Claims (8)

1. A method for reproducing a rectangular image shown on an electron beam tube on a support with a given width and any length in a first or second format of different sizes, the position of the image in the second format being rotated by 90 ° with respect to the first format and the width of the support in the first format essentially corresponds to the long side of the image and in the second format essentially corresponds to the narrow side of the image, characterized in that for the reproduction in the second format ( 3 d) by electronic measures both the position of the image on the electron beam tube compared to the position of the image in the first format ( 3 c) rotated by 90 ° and the different sizes of the two formats is achieved. 2. The method according to claim 1, characterized in that the electronic measures include an exchange of the horizontal ( 4 b) and verti len ( 4 a) deflecting the electron beam tube. 3. Device according to claim 1, characterized records that the different size of the Images by changing the horizontal and  vertical deflection current of the electron beam tube is reached. 4. The method according to claim 1, characterized in that the electronic measures comprise an image processing ( 7 ) cooperating with a digital image memory. 5. A method for reproducing a rectangular image shown on an electron beam tube on a support with a given width and any length in a first or second format of different sizes, the position of the image in the second format being rotated 90 ° with respect to the first format and the width of the carrier in the first format substantially corresponds to the long side of the image and in the second format substantially to the narrow side of the image, characterized in that the position of the image on the electron beam tube is reproduced by electronic means for reproduction in the second format ( 3 d) compared to the position of the image in the first format ( 3 c) rotated by 90 ° and the different size of the image is achieved by using lenses with different magnifications ( 2 , 2 a). 6. Device for performing the method according to claim 1, characterized in that

• - A switching unit ( 4 ) is provided, in which, depending on the format ( 3 c, 3 d), an interchange of the horizontal and vertical deflection voltage for the electron beam tube ( 1 ) takes place and
• - An amplifier unit ( 4 c), depending on the format ( 3 c, 3 d), amplifies the deflection voltage differently.

7. Apparatus for performing the method according to claim 1, characterized in that an image processing device ( 7 ) is provided which generates the deflection signals for the electron beam ( 1 ) depending on the respective format ( 3 c, 3 d). 8. A device for performing the method according to claim 5, characterized in that a lens control ( 5 ) depending on the format ( 3 c, 3 d) different lenses ( 2 , 2 a) in the beam path ( 6 ) between the electron beam tube ( 1 ) and carrier ( 3 ) positioned.