DE2109439A1 - Deflection coils for cathode ray tubes and processes for their manufacture - Google Patents

Description

Deflection coils for cathode ray tubes and processes for their manufacture

The invention relates to deflection coils with saddle-shaped partial coils.

In the magnetic deflection of cathode rays, high demands are made on deflection coils with regard to their geometric shape, since this essentially determines the homogeneity of the magnetic field and the linearity of the deflection. For this reason, special shapes have been developed for these deflection coils (e.g. saddle coils, toroidal coils). It is also known to improve the homogeneity of the deflection field by means of different, precisely defined winding thicknesses within a conductor bundle of the coil (for example so-called cosine coils DRP 763 825). The demands on the accuracy of the deflection coils are devices when color television \ still substantially larger than in cathode ray tubes with homogeneous fluorescent screens. In the case of color television sets, it has been shown that displacements of individual wires of the sub-coils by one wire thickness can lead to errors. This led to considerable expenditure in the series production of deflection coils.

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To meet these and other requirements in coil manufacture special winding templates have been built that consist of at least two parts that can be plugged together, whereby the winding wire is inserted into the space between the parts so that the coil wires cover the entire width of the space to complete.

For this purpose, the template or a wire guide is swiveled or rotated until the required number of turns is applied is. Then the winding is mechanically compressed with a pressing device and sent through the winding by high Baked impulse currents. Finally, the template ™ is dismantled so that the finished spool can be removed. at this winding arrangement often results in the coil becoming asymmetrical. This asymmetry is due to various Wire pull in the stencil inlet and outlet of the wire. One conductor bundle is wound more loosely as a result, for example and therefore wider than the other.

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Another drawback mean the necessary tight tolerances of the wire diameter, since at constant changing room width and constant turns the required change room depth to the wire diameter grows and thus the shape of the coil ändert.'Diese change is particularly noticeable on the walls thinnest points of the coil noticeable where for example, only one wire or two wires are next to each other.

Changes in the shape of the coil, which can be traced back to the causes described or similar, almost always have geometrical errors, This results in color errors in color televisions. So far, they could only be achieved by machining the template correct so that the correction could not be reproduced or reversed. Also adjustable stamps in the changing room

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are used to avoid these disadvantages. Errors due to changes in the air humidity, due to different types of paint of wire could hardly be avoided so far.

The invention is based on the object of providing a deflection coil or a manufacturing method for deflection coils with which the geometry errors are significantly reduced. The invention consists in a saddle-shaped deflection coil in that the Winding distribution is divided into several winding groups and that a predetermined starting point is provided for each winding group is.

In the following the invention is described with reference to an embodiment shown in the drawing, wherein Fig. 1 is a known and

■ Fig. Figure 2 shows the cross section of the saddle coil shown in Figure 1, 3 shows the cross section of the deflection coil according to the invention and FIG. 4, 5 the winding template required for this.

The known saddle coil shown in Fig. 1 consists of the two effective conductor bundles 1 and 2, which are not shown on the Tubular neck and the tube cone rest, and the rear head part 3 and the front head part 4, which of the Point away axis 5 of the picture tube (not shown) äÄMpfaf. Around To achieve a homogeneous magnetic field, the coil must be wound symmetrically.

In Fig. 2, the turn distribution of the coil of Fig. 1 is shown in cross section. From this figure it can be seen that the Displacement of a wire continues on the subsequent wires as the winding continues. These wires too then have wrong positions, this is avoided according to FIG. 3 in that certain local areas only have certain numbers of turns be assigned. This can be done, for example, by the

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front possibly also the rear coil ends pins 6,7,8,9 are assigned, which after a predetermined number of turns for the following winding group define a new starting point. This can lead to positional errors in the individual turns do not add any more. The pins 6,7,8,9 can take effect automatically, but they can also be used separately.

In Pig. 4 and 5 is a known winding template 10 in two Views shown. It consists of the inner part 10a and the outer part 10b, the winding space being part of the space forms between the two. The two template parts 10a, 10b are plugged together and are secured by dowel pins (not shown) as well as a screw 12 held in a defined position to one another. The 'wire is threaded between the template parts, e.g. by pivoting the template approx. 300 ° around the axis 13 during the winding process, while the winding wire around the two horns of the inner part 10a is passed around alternately into the gap 14 and the gap 15. By pins 6,7,8,9 that after Threading a predetermined number of turns are introduced, the winding is in adjacent strands 16, 17,18,19 divided. Significant advantages have already been achieved in one embodiment in which the front winding head 4 was already fanned out in the area of the conical part according to FIG.

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Claims (6)

Claims Y 1.! Saddle-shaped deflection coil with predetermined winding distribution ^ - ■ 'for cathode ray tubes, characterized in that the winding distribution of the longitudinal conductors is divided into several winding groups and that a predetermined starting point is provided for each winding group. 2. Saddle-shaped deflection coil according to claim 1, characterized in that the predetermined starting point for each winding group by pins (6,7,8,9), projections or the like. Is achieved. 3. Saddle-shaped deflection coil according to claim 1 or 2, characterized in that the pins, projections or the like. Are arranged so that the saddle coil has separate winding strands (16,17,18,19). 4. Saddle-shaped deflection coil according to claim 3, characterized in that the winding strands (16-19) are separated only in the region of one or both winding heads (3, 4). 5. Saddle-shaped deflection coil according to claim 4, characterized in that the deflection coil has a fan-shaped front end winding (4). 6. A method for producing deflection coils according to any one of claims 1-5, characterized in that after applying a predetermined number of turns pins are inserted at predetermined points in the winding cross-section (14, 15) » 209839/0927 Blank page