DE1762956C3 - Magnetic convergence device for a multi-beam cathode ray tube - Google Patents

Description

The invention relates to a magnetic convergence device for a multi-beam cathode ray tube with a cylinder part arranged coaxially with this within the tube neck and with a number corresponding to the number of electron beams with one arranged on the tube neck Convergence magnet arrangement cooperating pole piece pairs, each pole piece with a plate part protrudes into the cylinder part through its wall and parallel to its axis and the plate parts of each pair of pole shoes on both sides of the corresponding electron beam path are arranged and each of the pole pieces one between the outer wall of the cylinder part and the Tubular shark inner wall arranged, the magnetic coupling with the corresponding convergence magnet having producing flange.

Such convergence devices are known (German Auslegeschrift 1 013 690). The one between the Outer wall of the cylinder part and the inner wall of the tubular neck bent flanges of the pole pieces serve for the best possible coupling of the pole pieces to those on the outside of the tube neck Convergence magnets and should for this purpose as close as possible to the inner wall of the tube neck be arranged so that the smallest possible stray noise between the outer convergence magnets and d> .n inner pole pieces is guaranteed. In striving Bringing the flanges as close as possible to the inside of the tube neck, however, exists Danger of possible welding burrs with possibly sharp points on the rear pole piece ends the neck of the flask is scratched. This is particularly disadvantageous in those known tube constructions, where the connection to the anodes of the tube is made by one on the inner wall of the flask conductive coating is produced, which extends into the tube neck and in this case through any such weld burrs could be scratched.

The invention is based on the object of designing the convergence device so that the Coupling between the pole pieces and the outer magnet is optimal without causing any burrs or points at the rear ends of the pole piece there is a risk that the inner wall of the piston neck or the conductive layer applied thereon is scratched.

A convergence device is used to solve this problem of the type mentioned according to the invention that the flange in the longitudinal direction of the tube neck only partially rests against the outer wall of the cylinder part and against this Place is welded to her and partially spaced from this outer wall.

This ensures that on the one hand, since the distances between the pole piece flanges and the piston neck, on which the outer magnets sit, are small, the sensitivity of the coupling between the pole pieces and the outer magnet is optimal, while on the other hand the adjacent parts of the Flanges, which are welded to the cylindrical wall, run at a distance from the piston neck, so that any weld burrs on the flange a safe distance from the inner neck wall or the conductive one Have layer on it.

In a further development of the invention, the spaced from the outer wall of the cylinder part Flange parts are very close to the inner wall of the tube neck, so that the magnetic coupling gets even better. At each flange a spaced from the outer wall of the cylinder part part in In the longitudinal direction of the tube neck protrude over the edge of the associated plate part.

The invention is explained in detail below with reference to the drawing. It shows

F i g. 1 is a sectional view of the beam generator arrangement and the magnetic convergence device a three-beam cathode ray tube and

F i g. FIG. 2 is an enlarged sectional view of part of the convergence device in the section plane 2-2 in FIG Fig.l.

The figures show the parts of the tube and the outer magic assembly 46 for radial dynamic convergence. The dynamic convergence in a multi-beam cathode ray tube is a known measure and therefore does not need to be explained here.

The tube convergence cage 44 has a cup 110 with a cylindrical wall 112 and an end wall 114. A V-shaped magnetic shield 115 divides the cup 110 into three equal parts. The end wall 114 has three openings 116

\, which lie in the three sub-compartments of the cup 110 and are penetrated by the electron beams of the three beam generator systems. The cylindrical wall 112 has six slots in which three pairs of pole pieces 118 lie. Each pole shoe pair 118 consists of a plate part 119 and a flange 120. The plate parts 119 of the poke shoe pairs 118 run at least approximately parallel to one another and on both sides of the electron beam in question. The flange 120 of the pole shoes 118 runs along the outer surface of the cylindrical wall 112 and consists of parts alternately resting on it and raised parts. The spaced apart adjacent parts 122, 124 contact the outer surface of the cylindrical wall 112 and are welded to it. The raised parts 126, 128 which are spaced apart from one another run at least approximately parallel, but at a distance from the cylindrical wall 112 and are located very close to the piston neck 12.

Since the distances are small, the sensitivity of the coupling between the pole pieces 118 and the outer magnet 46 is optimal. On the other hand, since the adjacent parts of the flanges, which are welded to the cylindrical wall 112 , run at a distance from the neck 12 , any weld burrs on the flange, which can possibly form sharp points, are at a safe distance from that on the inner wall of the piston neck 12 \ envisaged conductive layer 52. Without this measure there would be the risk that the electrically conductive layer 52 on the 1 πιο nenwand of the flask neck, which makes the connection to the acceleration anodes of the three beam generator systems, is scratched by welding burrs on the flange 120 , whereby the finish of the finished Tube is affected. The adjacent and raised parts of the flanges 120 , on the other hand, prevent such damage to the layer 52.

One of the raised parts 128 extends axially

Direction beyond the associated plate part 119 .

The coupling between the outer magnet 46

ϊο and the pole piece 118 is therefore not limited by the axial length of the plate part 119.

1 sheet of drawings

Claims (3)

I, claims: 1. Magnetic convergence device for a multi-beam cathode steel tube with a cylinder part arranged coaxially with this inside the tube neck and with a number of pole piece pairs corresponding to the number of electron beams that cooperate with a convergence magic arrangement arranged on the tube neck, each pole piece with a plate part in the cylinder part protrudes through its wall and parallel to its axis and the plate parts of each pole shoe pair are respectively arranged on both sides of the corresponding electron beam path and each of the pole shoes has a flange which is arranged between the outer wall of the cylinder part and the inner wall of the tubular shark and produces the magnetic coupling with the corresponding convergence magnet, characterized in that that the flange (120) in the longitudinal direction of the tube neck only partially rests against the outer wall of the cylinder part (112) and is partially welded to it at these points is spaced from this outer wall. 2. Convergence device according to claim 1, characterized in that the flange parts (126, 128) spaced apart from the outer wall of the cylinder part are located very close to and coaxial with the inner wall of the tubular shark. 3. Convergence device according to claim 1 or 2, characterized in that on each flange a spaced from the outer wall of the cylinder part part (128 ) protrudes in the longitudinal direction of the tube neck over the edge of the associated plate part (119).