DE901684C - Coil arrangement for deflecting cathode rays - Google Patents

Description

The invention relates to a coil arrangement for deflecting cathode rays, the consisting of two half-coils symmetrically to the tube neck, each with two frontal conductors and two There is longitudinal conductors, in which the longitudinal conductors on the jacket of an opening in the direction of the beam The truncated pyramid and the frontal ladder lie in planes perpendicular to the tube axis.

Deflection coils are already known which ίο the tubular bulb neck of the cathode ray tube are adapted .and thus enclose a cylindrical space. It is also suggested been to use coils, the longitudinal conductor on a pyramidal or truncated cone Area.

In such arrangements in which the coil arrangement consists of two symmetrical to Tubular neck lying half-coils with two front conductors each and two longitudinal conductors and in which the end conductor is perpendicular to the tube axis Lay planes, should be greater than the winding cross-section of the longitudinal conductor according to the invention the winding cross-section of the end conductor and preferably increase in the direction of the beam. Appropriately wedge-shaped insulating strips are arranged between the individual winding layers of the longitudinal conductor. Since the coils enclose a space that widens in the direction of the beam, this results the advantage that a deflection over considerable angular openings is possible, which with particularly small losses can be caused, since a coil has a particularly small inductance results. Furthermore, since the longitudinal conductors have a larger winding cross-section than the end conductors and the winding cross-section of the longitudinal conductor increases in the beam direction, despite the cross-sectional difference of the coil at the entrance and at When the beam emerges, an almost uniform field is guaranteed over the entire deflection length traversed by the beam. This can reduce the distortion can be kept small despite the larger deflection angle.

The invention is described below with reference to the figures representing an exemplary embodiment.

Fig. Ι shows a coil pair in a perspective view, while

Fig. 2 shows a development of a coil. The upper front ladder 1 and the lower front ladder 2 of each coil connect the longitudinal conductors 3

and 4. The coil assembly is placed on the tube neck of a cathode ray tube so that the narrower side is on the beam entry side.

The coils are expediently manufactured as flat coils according to FIG. 2 over a mandrel wound with a trapezoidal cross-section. The bulge of the front conductor 2 is necessary so the cranked frontal conductors are roughly in the plane perpendicular to the tube axis. The cross section the longitudinal conductor on the beam entry side is smaller than that on the beam exit side. this is expedient by means of wedge-shaped insulating strips inserted between the individual wrapping layers achieved.

There can be two or four such half-coils on a support body in the form of a square Truncated pyramids are applied with a conical or cylindrical axial bore is provided. When using four coils they are arranged so that one of the Coil pairs come to lie between the cranked end conductors of the other coil pair, so that the longitudinal conductors of the two pairs of coils form the jacket of a truncated pyramid. As a material for the bobbin is z. B. Isolierpreßstoff used. The material is in powder form pressed under pressure and heat into the desired shape of the bobbin.

Claims (3)

PATENT CLAIMS: 1. Coil system for the magnetic deflection of the cathode ray in Braunschen Tube, which consists of two coils that enclose part of the Braun tube, characterized in that the winding cross-section of the longitudinal conductor is greater than that Winding cross-section of the front conductor and preferably increases in the direction of the beam. 2. Coil system according to claim 1, characterized in that on the longitudinal sides of the Coils of insulating strips are wrapped in parallel to the longitudinal conductors. 3. Coil system according to claim 1 and 2, characterized in that in the longitudinal sides of the coils wedge-shaped insulating strips are inserted so that they are perpendicular to the beam exit side have a larger cross-section towards the jet axis than on the jet inlet side.