DE916330C - Deflection arrangement for cathode ray tubes - Google Patents

Description

Cathode Ray Tube Deflector This invention relates on deflection assemblies for cathode ray tubes, such as those used in television in particular can be used for both image decomposition and image reassembly.

In the cathode ray tubes used in the majority with curved Projection screens result in that the horizontal lines in the image are on the sides are curved downwards. This can be achieved by a corresponding counter-curvature of the grid on the screen of the cathode ray tube. You can do the latter achieve once by z. B. with magnetic deflection by means of coils which allows one coil to grip around the axis of the tube more than the other coil, or, on the other hand, as the invention provides, the deflection means for a Deflection direction consist of several, in particular two, parts, so arranged that the boundary surfaces of both parts on the side facing the screen do not lie in one plane.

According to one aspect of the invention, the coils can so be designed so that the length of the sections is different. Such an arrangement has the advantage that only part of the main field is distorted in a desired manner so that the beam through the inhomogeneity of this part of the deflection field only there experiences a deconcentration where it already, since it is on the screen, in one Point converges, has a small diameter. In order for making To achieve a simplification, it is possible to use coils of the same length and to move them against each other on the tube neck. The deconcentrating Effect through the inhomogeneous field into which the electron beam then enters through the field, was formed on the side of the coils facing the screen, largely compensated. On the other hand, the beam still runs in at this point Near the axis, where the field is not so inhomogeneous.

The invention is illustrated schematically by means of the drawings Sketches for an embodiment by means of coils explained in more detail.

Fig. I shows the arrangement of the coils in a cross-section perpendicular to the cathode ray axis rnd Fig. 2 shows the arrangement of the coils on the neck of the cathode ray tube.

In Fig. I, i denotes the tube neck, 2 and 3 those surrounding it Deflection coils and the dash-dotted line .I the undeflected electron beam. According to one embodiment of the invention, one of the two coils, e.g. B. the Coil 2, shorter than coil 3 and the arrangement of both chosen to one another so that that the boundary surfaces of both coils on the side facing the screen are not lie in one plane. The arrangement of FIG. 2 and consequently results accordingly a line of force as shown by the dashed field lines. This arrangement has the advantage that the beam, which at the point ra in the deflection field occurs, up to point b a homogeneous field and only from b to c a field is found, by which a curvature is achieved that counteracts that described at the beginning. It is expedient to use coils which extend the tube neck, as shown in FIG shows, half enclose in equal parts, otherwise it would be on the whole length of the spool an inhomagenous field may be present, which has a strong deconcentrating influence and thereby causes a blurring on the grid sides. With the one described An example is the beam distortion due to the inhomogeneous field in parts b to c smaller because the beam at point b already has a smaller outer diameter than at point a and also the length of the inhomogeneous field is shorter. As in Fig. 2 is indicated by the field of force lines drawn in dashed lines, results a resulting frontal ladder field that runs diagonally downwards in the axial direction, thus has a component in the axial direction that compensates for the beam acts to the extent that the deflection current flows through the coils. This means that the beam is more influenced with greater deflection.

The invention is not limited to the example described, but it can be used with advantage wherever grid curvatures appear. The invention also does not extend to the use of magnetic deflection coils limited, but can also be used in the same way when using ferromagnetic Deflection yokes are used.

Claims (5)

PATENT CLAIMS: i. Deflection arrangement for cathode ray tubes, especially in television, in which deflection means for one deflection direction consist of several, in particular two parts, characterized in that the boundary surfaces of both parts are not in one plane on the side facing the screen. 2. deflection arrangement according to claim i, characterized in that the length of the sections is different. 3. deflection arrangement according to claim i and 2, characterized in that that with electromagnetic deflection the coils are a pair of coils of different lengths and the boundary surfaces of both coils on the side facing the screen do not lie in one plane. . 4. deflection arrangement according to claim i to 3, characterized characterized in that the poles of a ferromagnetic deflection yoke are of different lengths have and the boundary surfaces thereof on the side adjacent to the screen do not lie in the same plane. 5. deflection arrangement according to claim i, characterized characterized in that the sections, in particular the coils, have the same length, but are shifted against each other.