EP1204132A1 - Color display tube - Google Patents

Abstract

The image tube has a beam deflection system with a pair of coils for the horizontal deflection and a pair of coils for the vertical deflection and at least one field element (5) of a magnetically conductive material, for correcting the field characteristic resulting from the deflection coils. The field element has a flat rectangular configuration and is positioned adjacent the beam deflection system, with at least one opening (6) for providing 2 flat areas joined together via bridging sections.

Description

The invention relates generally to a color picture tube and is particularly concerned with the correction of aberrations with the help of magnetically conductive elements, which in the Area of a deflection unit can be attached.

Deflection units are mounted on electron beam tubes around the To be able to deflect electron beams across the screen in the X and Y directions. A deflection unit essentially consists of two pairs of coils and one Ferrite core. A first pair of coils creates a magnetic field that holds the electron beams deflects in the horizontal direction (X direction), while the further pair of coils deflects one vertical deflection (Y direction). The ferrite core encloses the coils and serves to return the magnetic flux.

Electron beam generating systems are arranged within color picture tubes, A commonly used design of modern color picture tubes is an in-line arrangement which has beam generating systems. In such systems, three Electron beams generated, the axes of which are arranged side by side in a plane are and converge on the screen. Basically, it is through such Color picture tubes self-converging image generated by suitable deflection units and has essentially no north-south raster distortions (Y direction).

To minimize aberrations of the deflection unit, it is generally not sufficient to optimize the design of the deflection coils alone. To do this Correction magnets and field-shaping elements are also used, which on the Deflection system are attached to correct imaging errors. The field-forming elements are generally magnetic conductive ferrite strips, which can be of any shape.

Such ferrite strips are attached to the deflection system in the area of the coils to influence the deflection field. To correct aberrations often have to several field-forming elements can be attached to a deflection unit. The Attachment of a plurality of field-forming elements to correct Imaging errors must be made with high precision, since their effect on the Field course depends on their positioning on the deflection unit. Such Correcting imaging errors is therefore particularly complex in production.

The invention has for its object to provide a color picture tube, the is easier and therefore cheaper to manufacture. Another job of Invention is the provision of the associated color television sets and Color monitors.

According to the invention, the number of field-forming elements on the deflection unit to attach a color picture tube, significantly reduced, by Use of field-forming elements that have at least one recess. The recess is designed so that at least two through webs surface sections held together are formed. By using such Field-shaping elements can have the effect of several conventional field-shaping elements Elements can be replaced without recess. This will increase the number of Fastening steps for producing a color picture tube reduced, so that Color picture tube can be manufactured more cheaply.

Because of the recess, the field-forming elements according to the invention have at least two separate sections for influencing the field profile. The The distance between the additional subfields caused by the sections is due to the Shaping firm. In contrast to a plurality of individually attached field-forming Elements whose spacing is subject to scatter during the fastening process, the color picture tubes according to the invention always have a defined distance between them partial deflection fields and are therefore with less scatter and More uniform quality of distraction can be produced.

In a preferred embodiment, the field-forming element has a Rectangular shape. By appropriately adjusting the length and width of the it is the field-forming element and the corresponding positioning of the recess possible, minimal imaging errors with great precision even in the Mass produce.

Conventionally, such a result is also more field-shaping Elements in different positions of the deflection unit can hardly be achieved.

The recess in the field-forming element is preferably circular and thus particularly easy to manufacture.

In a preferred embodiment, the recess is centered in the field-forming element arranged. With this arrangement you can easily Assign two conventional field-shaping elements of the same size replace the field-shaping element according to the invention.

Further preferred configurations are specified in the subclaims.

Fig. 1

zeigt die Ansicht eines Quadranten einer Ablenkeinheit einer Farbbildröhre mit herkömmlichen feldformenden Elementen.

Fig. 2

zeigt den Quadranten der Ablenkeinheit aus Fig. 1, bei dem die herkömmlichen feldformenden Elemente durch ein erfindungsgemäßes feldformendes Element ersetzt sind.

The invention is explained in more detail below with reference to the accompanying drawings.

Fig. 1

shows the view of a quadrant of a deflection unit of a color picture tube with conventional field-forming elements.

Fig. 2

shows the quadrant of the deflection unit from FIG. 1, in which the conventional field-shaping elements are replaced by a field-shaping element according to the invention.

Fig. 1 shows a partial view of a deflection unit 1 for mounting on a Color picture tube, in which the windings of a coil are indicated in area 2. In In this area there are a first ferrite point 3 and a as field-forming elements second ferrite point 4 attached. Preferably, for the correction of Imaging errors ferrite points or ferrite strips on the deflection system glued. The deflection field of the deflection unit 1 is influenced by them in each case Correct aberrations and good convergence, coma and geometry values to achieve.

To optimize the deflection field, an additional ferrite strip can be sufficient Generally, however, multiple ferrite elements will be required. For example another ferrite strip elsewhere to improve convergence become necessary. The assembly of a plurality of such ferrite strips 3, 4 different positions of the deflection system in a deflection unit 1 one Color picture tubes, however, are difficult to standardize, so one production-related variation of the positions of the ferrite elements on the Deflection unit remains after manufacture.

In Fig. 2, the improvement of conventional field shaping according to the invention Elements 3, 4 reproduced. Instead of a plurality of ferrite strips or points at different positions becomes a single field-forming element 5 used. This element preferably has a rectangular shape and covers approximately the same areas as the individual ferrite points 3, 4 in FIG. 1.

Thus the same additional deflection fields generated by the ferrite points 3, 4 can also be effected with the ferrite strip 5 according to the invention, this ferrite strip 5 has a recess 6 which is approximately the distance between the conventionally used ferrite points 3, 4 corresponds. The through the recess 6 formed two sections in the magnetically conductive material correspond the conventional ferrite points or strips.

By varying the length of the strip 5 and the size of the hole 6 it is possible to optimize the influence of strip 5 on the field and minimal To achieve aberrations. A corresponding result would only be conventional by a plurality of ferrite strips or points at different positions the deflection unit possible.

In another embodiment, not shown, the inventive one Ferrite strips 5 have a plurality of recesses 6, which are also irregular can be arranged within the ferrite strip. The then corresponds to Distribution of the portions of the strip 5 formed by the cutouts 6 Position and size of conventional ferrite points or strips 3, 4. To be able to adapt the outer shape of the deflection unit 1 is the ferrite strip 5 flexible.

Instead of a plurality of fastening or gluing processes for the individual Ferrite strips or points 3, 4 is only a single gluing process for the Ferrite strips 5 required. The two subfields of the ferrite strip 5, which by the recess 6 separate parts of the strip are generated, have a defined distance. In contrast, conventional ferrite points can be used of such precision in the mass production process.

The invention is preferred for particularly flat color picture tubes for the correction of Imaging errors used.

Claims (5)

Color picture tube with a deflection unit for mounting on the color picture tube, comprising: a pair of coils for horizontal deflection, a pair of coils for vertical deflection and at least one field-shaping element (5) made of a magnetically conductive material with an essentially flat shape for correcting the field profile generated by the deflection unit, the field-shaping element being fastened in the region of the deflection unit, characterized in that
the field-forming element (5) has at least one recess (6) which is designed such that at least two surface sections held together by webs are formed. Color picture tube according to claim 1, characterized in that the field-forming element (5) has a rectangular shape. Color picture tube according to claim 1 or 2, characterized in that the recess (6) has a circular shape. Color picture tube according to one of claims 1 to 3, characterized in that the recess (6) is arranged centrally in the field-forming element (5). Color monitor or color television with a color picture tube according to one of the Claims 1 to 4.

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