DE736573C - Arrangement to increase the screen load capacity for image decomposition facilities using Braunschweig tubes - Google Patents

Description

Arrangement to increase the screen load capacity in image decomposition devices by means of Braunschweig tubes The invention relates to an arrangement for increasing the Screen load capacity for image decomposition devices using a Braunschweig tube.

It is known that the light spot on television broadcasts the screen of a Braun tube to project onto a film. It it is advisable to use a continuously moving film in this process, because with rugged film movement a considerable part, about - 5%, that is needed for dismantling to disposal. standing time for advancing the picture is lost. at the continuous movement of the film is only one line in the simplest case written, d. H. -the lines appear on top of each other in a normal picture all one after the other at the same point on the fluorescent screen however, the difficulty that the Braun tube screen is in proportion at this point is destroyed in a short time. It has also been suggested to counter the lines to let the film movement wander on the fluorescent screen of the Braun tube, to always stimulate new parts of the shade to glow. However, this poses difficulties in relation to the correct position of the light spot.

In order to reduce the load on the shield and at the same time also a To obtain greater brightness for the pixel has been proposed on the fluorescent screen a sharp line and this through a cylindrical lens to a point to contract.

The present invention aims to further increase the screen load capacity. According to the invention is used in image decomposition facilities by means of a Braunschweig tube, in which the cathode ray tube only causes the image to be broken down in line direction, to increase the screen load capacity the Braun tube mounted pivotably perpendicular to the line direction and such moves that the position of the luminous zone of the fluorescent screen in relation to on the position of the Abbildunsoptik does not change. It is useful to use the 'light spot on the screen in the form of a narrow rectangle, the length of which is the io- to 10 times the size of the pixel. The streak of light created in this way is achieved by optical systems, preferably two separate cylinder lens systems, imaged on the film in such a way that the light spot has the height of an image line.

To generate the rectangular light spot z. B. off Electrode systems known from sound recording or specially shaped cathodes used. The broadening of the lines on the Braunsehen tube screen can also by. a high-frequency additional deflection of a round or square Luminous spots are achieved, the frequency of which is above the image signal frequency.

The glowing zone slowly moves across the fluorescent screen, in which it shifts, for example, by a small amount in an image duration. This movement of the luminous zone over the fluorescent screen is indicated by a corresponding pivoting of the tube in the opposite direction compensated, so that the luminous zone is always in the same place with respect to the optical system remains in the room.

In the following the invention is based on an exemplary embodiment relevant schematic figures explained.

In all figures, corresponding parts are with the same Numbers designated.

In Fig. I, i denotes the film on which the light spot is imaged should be, 3 the luminescent screen of the pivoted Braunsehen tube 4. The The light spot is formed with the aid of a cylinder lens 6 and cylinder lens 7 that encompass it Cylindrical lens system shown on the film. The light spot slowly moves in vertical direction across the fluorescent screen and at the same time the tube is turned around the horizontal axis slowly tilted in the opposite direction, so that the luminous stripes always remain in the axis of the optical system. The mechanical Pivoting of the tube is inevitably coupled in the beam deflection in such a way that the glowing stripe always remains in the same place in the room. This additional Pivoting the tube can be done in any slow rhythm that is not in any a fixed relationship to the line or frame rate.

2 shows the beam path through the cylinder lens systems 6 and 7 in side view. Fig. 3 in plan. Assume that the film is in Fig.2 moved perpendicular to the plane of the drawing, d. H. in Fig. 3 from top to bottom. Of the Arrow 2 then gives the line length of the generated on the screen 3 of the Braun tube 4 Light strip on. The width of the strip is indicated by the arrow 5 in FIG. It corresponds to z. B. the width of ten normal lines. To map the on the light strip produced by the Braun tube is used by a cylinder optic 6, which maps the line length onto the film, for example in a ratio of 1: 3. One further cylinder optics 7 are used for this. the light strip in the direction perpendicular to it in the ratio i: i o on the film, so that one line more normal on the film Length and width arise. This line has the same load on the fluorescent screen iof the surface brightness or, if the latter does not need to be increased, it is possible to reduce the stress on the fluorescent screen in the interest of a larger one Reduce the service life to the tenth part .-- The pulling apart of the light strip can of course be made to any width in order to take full advantage of the principle. -

Claims (1)

PATENT CLAIM: Arrangement to increase the screen load capacity in image splitting devices by means of a Braunseher tube, in which the cathode ray tube only effects the image splitting in the line direction, characterized in that the Braun tube is pivoted perpendicular to the line direction and such. is moved so that with a simultaneous change in the position of the luminous zone on the fluorescent screen, the position of the luminous zone does not change with respect to the position of the imaging optics (6, 7).