DE742390C - Ferromagnetic deflection system for cathode ray tubes - Google Patents

Description

Ferromagnetic deflection system for cathode ray tubes The invention refers - refers to a ferromagnetic deflection system for cathode ray tubes, especially for fen: nsee- and osciUography purposes with two standing, effective kinking areas in the same place.

Such deflection systems are known, but have with them The results obtained are not completely satisfied, as is readily apparent from the in the line of force shown in FIG. r can be seen.

According to the invention in a deflection system for cathode ray tubes for the beam deflection effective at the bleaching point in two perpendicular to each other standing deflectors within each coil of the pair of coils Coil system a ferromagnetic, laminated one consisting of two parts Kern in such a way that between the two kernels: -stÜcken -.ein through the Cathode ray axis going, in the axis of symmetry in front of the coil pair 16, 17 generated field. gender air gap is present, its width (at least equal half the width of a: core part. The ferromagnetic ones are useful Core sections composed of laminated metal sheets, which in the direction of the Cathode ray axis are divided. It is beneficial to have the opposite Core sections of the two coils of the coil pair, each with one of the Spulexapaar to connect the outer U-shaped yoke, whereby the outer return of the magnetic lines of force of the deflection field generated by the two coils will. The lamellas of the opposing core sections can with the Lamellas of the associated U-shaped yoke are "combined in such a way that Especially for the ferromagnetic path of force lines sheet metal lamellas with C-shaped shape endure. According to a further embodiment of the invention serve the cores of the coils. which cause the one deflection field. simultaneously as pole pieces for a second deflection system, which is a deflection perpendicular to it causes, and the geometric arrangement is made such that the The plane of symmetry of the deflection yoke of the higher deflection frequency is perpendicular to the cathode ray axis in the direction of the cathode ray axis parallel to that of the cathode ray axis shifted perpendicular plane of symmetry of the deflection yoke of the lower frequency is. In this way, partial compensation of the achieve deflection distortion caused by the curvature of the lines of force.

In the following, the invention is illustrated by means of the exemplary embodiments Illustrative Figs. 2 to 4 described in more detail.

One of the previously known deflection systems is schematically shown in FIG shown. The coils i and 2 cause a deflection of the cathode ray from top to bottom (image deflection direction), the coils 3 and q. a distraction from the left to the right or vice versa (line deflection direction). The magnetic inference for the line of force flows via an annular yoke 5. The coils 3 and q. contain a laminated iron core, and the: distortions caused by this iron core of the force field caused by the coils i and 2 in the deflection space '6 are open clearly visible in the figure.

In the arrangement shown in section in FIG within the space enclosed by the coil 7, the two sections 8 and g of iron none. An air gap is provided between these two sections. In the same way, the two sections i i and i are arranged in the coil i o. The magnetic return for the lines of force takes place via the U-shaped yokes 13 and 1q ;. By reducing the magnetic resistance of the coils enclosed space results with the same number of ampere turns of the deflection system a significant increase in the beam deflection angle within the cathode ray tube 15. By arranging an air gap parallel to the cathode ray axis in the core This results in a particularly favorable configuration of the force line field in the deflection space. The core pieces can also be adapted to the tube neck, as shown in dashed lines in FIG is shown.

3 shows a practically executed deflection system according to the invention. The cathode ray in the cathode ray tube 15 is generated by that of the coils 16 and 17 generated magnetic deflection field from left to right and through the deflected field generated by the deflection coil system i S from top to bottom. Two each Sections of the ferromagnetic coil core are connected to the U-shaped yoke combined to form a C-shaped piece of sheet metal 19. The coils 16 and 17 are the tube neck adapted (not visible on the drawing) and the style leader in a corresponding Distance passed around the cathode ray tube. The C-shaped pieces i9 serve at the same time as pole shoes for the generated by the coil system 18 and via the Leg 2o directed power flow. To increase the inductance of the coil system 18, a ferromagnetic bracket 23 is connected via the two air gaps 21 and 22, which forms a - magnetic shunt.

In certain cases (e.g. to compensate for wide-angle tubes occurring pillow-shaped raster distortions) it is, as in Fig. q. drawn expedient, the C-shaped yokes ig offset in the direction of the cathode ray axis to be arranged in relation to the yokes 2o. The plane of symmetry of the jochschenke12o falls thus not related to the plane of symmetry of the yokes ig.

If one looks at Fig. Q. as a plan and Fig. 3 as an elevation of the deflector assembly according to the invention, then. is done in the direction of the cathode ray axis Shifting the C-shaped yokes, which hold the deflection coils. 16 of the higher deflection frequency enclose, particularly clearly.

Claims (4)

PATENT CLAIMS: i. Ferromagnetic deflection system for cathode ray tubes, especially for television and oscilloscope purposes, with two mutually perpendicular standing deflection fields effective at the same point, in which the one deflection field is generated by a pair of coils provided with ferromagnetic material; through this characterized in that within each coil of the coil pair two suitably in direction of the cathode ray laminated core sections are arranged, between which one passing through the cathode ray axis, izi the axis of symmetry of the coil pair generated field is present lying air gap,. whose width is at least equal half the width of a core section. 2. deflection system according to claim i, characterized characterized in that the opposite sides of the tube i,. Core cuts of the two coils with each one encompassing the coil pair from the outside U-shaped yoke: are connected. 3. deflection system according to claim 2, characterized in that that the opposing core sections with the associated U-shaped Yoke are so united; that the sheet metal lamellas have a C-shaped shape. 4. Deflection system according to one of claims i to 3, characterized in that the plane of symmetry of the deflection yoke of the higher deflection frequency perpendicular to the cathode ray axis is shifted in the direction of the cathode ray axis parallel to the plane of symmetry of the deflection yoke of the lower frequency perpendicular to the cathode ray axis. To distinguish the subject matter of the application from the state of the art, the following publication was considered in the grant procedure: British patent specification ...... No. 494 5g6.