DE1108262B - Image converter system for supericonoscopes - Google Patents

Description

Image converter system for supericonoscopes With supericonoscopes complicates the conditions of the tube production by the fact that the on the storage disk The electron image produced has a very specific size with regard to the edge of the storage electrode must have. Due to the tolerances of the dimensions of the supericonoscope and the The magnetic lens generating an electron image in the pre-imaging system fluctuates from tube to tube in its size. This is for proper playback of the Image signals disadvantageous, since the edge interference signal that occurs with these tubes is from the position of the image edge in relation to that attached to the edge of the storage disk Auxiliary electrodes depends. If the distance between the edges of the image and the With the auxiliary electrodes, the interference signal can only be compensated for inadequately. Both previous educational systems can change the field strength within certain limits because the distance between the photocathode and the raster electrode is fixed, this means that only the sharpness of the image can be regulated, while the position and size of the image cannot be influenced. It would therefore be desirable to have a facility which allows the size of the electron image on the grid without Change the image geometry to vary. It is a camera construction for supericonoscopes became known at which the inclination of the axis of the magnetic electron lens of the pre-imaging system can be changed in that the coils by means of a screw spindle can be tilted around a joint. By inclining the coil axis however, the size of the electron image cannot be varied.

The magnet coils commonly used today consist of a cylindrical one Winding carried by an insulating body and by a ferromagnetic sheath is surrounded. This ferromagnetic shell has a special shape that it allows edge errors of the image, in particular in the form of an S-shaped distortion the geometry, largely to be avoided. For this purpose there is the ferromagnetic Reinforcement made of a cylindrical part and two disc-shaped parts, which with the cylindrical part are firmly connected, as well as one resting on the photocathode and with the front disc firmly connected pole piece made of much stronger Material.

The focusing system according to the invention differs from the known one Arrangement in that the coil a clearance between the disc-shaped parts given by at least 2% of their length in the direction of the optical axis is, with the help of a screw on the end of the grid plate facing the Focusing coil can be painted over. An appropriate training of the focusing system is z. B. obtained when at the photocathode-side end of the coil between the front disc-shaped shield and the winding a leaf spring made of non-magnetic Material is attached that provides the necessary back pressure, so that the Coil with the help of said screw z. B. 2 mm in the direction of the optical axis can be moved. It has been shown, surprisingly, that the Center of gravity of the magnetic field despite the strong iron reinforcement of the coil by a Shift in position of the latter can be shifted. A shift by the aforementioned Amount results in a change in image size by 7 Oh, without adding any additional geometric distortions or blurring occur.

An exemplary embodiment of the invention is explained in more detail with reference to FIG. 1 explained. In Fig. 1, 1 is the tubular bulb of the supericonoscope, which is in consists essentially of the memory part 2 and the image converter part 3. At the front of the image converter part 3 is the photocathode 4. To focus the through Is projection of a light image on the photocathode generated electron image the image converter part is surrounded by a focusing coil which consists of the winding 5 and the cylindrical shield 6, the disc-shaped shields 7 and S and the pole piece 11 consists. The pole piece must be used to avoid geometry distortions close to the glass plate carrying the photocathode. The inventive Device for moving the coil consists of a knurled screw 9 and one Leaf spring 10; which give the possibility to move the coil by a few millimeters. In previous arrangements, the Coil no leeway, but rather was closely aligned with the disk-shaped shields.

With the invention it is now possible to achieve a serial improvement the image quality, especially at the edge of the image. Since the distance between the frame electrodes attached to the edge of the storage plate and the image edge for the suppression of the interfering signal is very critical, the edge interfering signal could so far not always be balanced to the desired extent. This is now supported by the device according to the invention achieved to the required extent.

According to a structural development, the shifting of the coil not by one adjusting screw, but by two diametrically opposed ones Post their scope attacking pins moved. This achieves that tilting of the coil, which could lead to image distortion, is avoided (s. Fig. 2). Will be beneficial on the housing part? a bracket 12 from semicircular förnüger Shape attached, which is rotatably mounted on two stands 15 and 16 and with its ends on two guided in bores of the housing part 7 pins 13 and 14 rests. By tilting the bracket around its axis with the help of an adjusting screw 17, the coil can be moved without the risk of tilting.

Claims (1)

PATENT CLAIMS: 1. Imaging system for supericonoskopröhren with a cylindrical imaging system enclosing at least one cylindrical (6) and two disc-shaped ferromagnetic parts (7, 8) of the focusing coil (5), characterized in that between the end faces of the coil and the opposite ferromagnetic parts (7, 8) there is a margin of at least 2% of the distance between the photocathode and the image storage plate, preferably at least 2 mm, in the direction of the optical axis and that a device is provided for moving the coil within this margin in the direction of the optical axis. z. Image converter system for supericonoscope cameras according to Claim 1, characterized in that the device consists of a leaf spring (10) attached to the end of the coil on the photocathode side between its end face and the opposite shield and an adjusting screw (9) acting on the end face of the coil at the other end . 3. Image converter system according to claim 1 or 2, characterized in that the focusing coil (7) projects beyond the piston part containing the photocathode and encloses an annular pole piece (11) resting against the piston. 4. Image converter system according to one of the preceding claims, characterized in that a semicircular bracket is rotatably mounted on the coil housing in an axis parallel to the diameter of the bracket and perpendicular to the coil axis and presses with its ends on two diametrically opposite points of the coil, and that the bracket can be tilted for the purpose of moving the coil around its axis. Documents considered: German Auslegeschrift No. 1042 013.