DE759354C - Facility with picture catcher tube - Google Patents

Description

Image capture tube device The invention relates to devices with image capture tubes, in which the axis of the light-optical system to generate a photo of the object to be transmitted on the photoelectrically sensitive Side of an opaque collecting surface with the axis of the electron-optical System for generating a moving electron beam forms an angle.

Devices to which the invention relates are for example those with the well-known image capture tubes based on the storage principle, where the mosaic electrode both the collecting surface for the light beams and that of the moving electron beam to be acted upon forms, or those with the also known B, i @ ldfänigerrö'hrem according to the dissociation principle, where the connected photocathode is the collecting surface for the light rays, and the decomposition probe or the opening corresponding to it a pinhole the surface to be acted upon by the electron beam. forms.

Considerable distortions occur with image catchers of the type just described of the image to be transferred in that either the axis of the light-sensitive layer falling light beam an angle with the normal on the light collecting surface includes, or the axis of the electron beam in its rest position one not to be neglected Z7 # 'angle with the normal on the electron collecting surface forms. Correction of the distortions that occur can only be achieved with a considerable amount Achieve effort in a usable manner. 'One can also use "straightforward" arrangements achieve in which the axes mentioned with each other and with the normal mentioned coincide if one replaces the opaque photoelectrically sensitive Collecting surfaces in a manner known at least for probe tubes, transparent photocathodes or the well-known double-sided mosaic electrodes are used for the storage tubes. But these means also bring considerable technical difficulties or worsening the mode of action with itself.

According to the invention, the disadvantages of the known devices eliminated by such an arrangement that the axis of the light-optical system is perpendicular to the collecting surface and that means are provided to the electron beam to deflect in such a way that it is essentially perpendicular to the area to be acted upon by it Surface falls, and that before the deflection at most the movement of the electron is generated in the direction perpendicular to the deflection plane. Under deflection plane is while understanding the plane in which the axis of the electron beam is in front of and after the diversion runs.

Can be particularly advantageous for deflecting the electron beam use electromagnetic means. An Deflection of the electron beam by 90 ° with distortion-free imaging without further ado reach.

The figure shows an exemplary embodiment of the invention shown schematically in the event that the image light hits a mosaic electrode directly falls and the scanning is carried out by a moving electron beam.

In the figure, z '@ i means that of individual isolated elements existing, photoelectrically sensitive grid layer, P the carrier plate of the mosaic electrode, G the counter electrode. The means for deflecting the cathode ray are denoted by A, while U represents electromagnetic means for deflecting the cathode ray.

The deflection means used to generate the scanning movement are shown in shown for the sake of simplicity only for one coordinate. As well as in the case of the system A as well as in the case of the system U, the deflection field can be generated by electrostatic rather than electromagnetic 1, means. The distractors can also be designed as mixed electrostatic-electromagnetic deflection elements be.

The deflection means U generate a static magnetic field in others Embodiments a static electric field such that the direction of incidence of light and the mean direction of incidence of the electron beam practically perpendicular stand on the light-sensitive surface. The arrangement is made so that no electrodes to generate or deflect the electron beam by way of the incident light beam.

It should be noted that the deflection means described above also for television receivers with Braun tubes, particularly applicable for projection purposes are. In this case, the light-optical system is through the projection system, the electron beam through the intensity-controlled which generates the luininescence image Cathode ray and the area to be acted upon by the electron beam through the projected luininescence screen of the. Braun's tube shown. In this way you have the advantage that the fluorescent screen is attached to the Place of the mosaic electrode of the @ embodiment is located and from the cathode ray is affected, viewed from the side of the incident cathode ray or the light emanating from it through one arranged on the same side Optics can be thrown onto a projection screen. You can then use fluorescent screens use, which consist of a layer of luminous salt backed by a mirror. Such screens are characterized by a particularly high light yield.

Claims (4)

PATENT CLAIMS: i. Device with image capture tube in which the axis the light-optical system for generating a light image of the object of transmission on the photoelectrically sensitive side of an opaque collecting surface with the axis of the electron-optical system for generating a moving electron beam forms an angle, characterized by such an arrangement that the axis of the light-optical system: stands perpendicular to the collecting surface and that means are provided that deflect the electron beam such that it falls essentially perpendicular to the surface to be acted upon by it, and that before the deflection at most the movement of the electron beam in the for Deflection plane perpendicular direction is generated. 2. Device according to claim 1, characterized characterized in that magnetic deflection means are provided. 3. Set up after Claim 1 or 2 with image capture tube according to the storage principle, characterized by such an arrangement that the light beams and the electron beams from the same Side forward and fall essentially perpendicularly onto the mosaic electrode. 4. The use of Umlenknvittel'.n according to one of the preceding claims in TV projection receivers with Braunsehen tubes, where the light-optical system through the projection system, the electron beam through the intensity-controlled cathode beam generating the luminescence image and the surface exposed to the electron beam zi by the zi projecting luminescence screen de: Braunsehen tube is shown. In order to distinguish the subject matter of the invention from the state of the art, the following publications were considered in the grant procedure: German Patent No. 450 187; French Patent Nos. 539 613, 577 530; British Patent Specification No. 318 334 368 721; High frequency technology and electroacoustics, Volume 43, 1934, S. Io9ff .; Journ. of the Franklin Institute 1934, pp. 441 to 444; Busch and Brüche: "Contributions to electron optics", Leipzig, 1937, pp. 127 and 143; Elektro Nachnichten Technik, 1935 p. 387; Physica 1937, pp. 33 to 40.