DE2249474C2 - - Google Patents

Description

The invention relates to an inline color picture tube according to the preamble of the claim. Such an inline color picture tube is from the DE-OS 20 19 144 known.

In this color picture tube, the convergence system consists of two more common units fixed magnetic cores on both sides of the Electron beam generators are arranged.

A color picture tube is known from DE-OS 19 65 498 the electron optical aberrations of the beams when focusing on the Screen can be reduced in that the middle electron gun a Has a deflection device which contains a magnetic element, which has the shape of a rectangular tube.

The known color picture tubes have the disadvantage that the three of the Electron beam generators do not produce electron beams fine enough to converge on the screen of the tube what leads to a deterioration in the image quality because of the electromagnetic deflection generated magnetic fields for the Vertical deflection and the horizontal deflection the electron beams, that unevenly pass through the convergence unit, d. H. that magnetic fields of inconsistent strength on the central beam and act on the side beams.

The object underlying the invention is a Inline color picture tube with a simple and effective Horizontal convergence unit to create the effect of the stray fields of the magnetic deflection system is not significantly affected.

The object is achieved by the characterizing features of the claim solved.

The inline color picture tube according to the invention comprises a tube bulb with a neck part, an inline electron beam system with three in the Electron beam generators lying inline to generate a  Center beam and two side beams on the fluorescent screen the color picture tube are directed, a magnetic deflection system for Generation of the horizontal and vertical deflection fields for the horizontal and vertical deflection of the electron beams, whereby the horizontal deflection field is oriented perpendicular to the inline plane, a beam convergence device with two Convergence magnetic field generators for horizontal convergence, which in Direction of the electron beams viewed in front of the magnetic one Deflection system on the outside of the one belonging to the tube bulb Neck are arranged and necessary for convergence Generate convergence magnetic fields, two magnetic shielding devices, which within the neck part each against one of the Convergence magnetic field generators and aligned between them the center beam and the two side beams are arranged and the Have elevations facing the center beam.

Each of the magnetic shielding devices consists of only a curved magnetic shielding plate that is mirror symmetrical is formed and arranged to the inline level. The shielding plates extend in the area of the radiation convergence device in Beam direction and essentially perpendicular to the inline plane. The distance between the shielding plates in the inline plane is also at smallest and increases in distance from the inline level.

The invention is described below with reference to two in the drawing illustrated embodiments explained in more detail. It shows

Figure 1 is a horizontal section through an embodiment of an inline color picture tube according to the invention.

FIG. 2 shows a cross section through the inline color picture tube according to FIG. 1, namely through the part of the tube in which the radiation convergence device is arranged, and

Fig. 3 shows a determined by the arrangement of the beam convergence device section of an in-line color picture tube of another embodiment of the invention.

As can be seen from FIG. 1, an inline color picture tube 2 consists of a tube bulb with a front plate 4 , a funnel part 6 and a neck part 8 . A fluorescent screen 10 is applied to the inner surface of the front panel 4 . An inline electron beam system 24 mounted in the interior of the neck part 8 belonging to the tubular bulb includes the three electron beam generators 18, 20 and 22 aligned in one plane, of which a central beam 12 and side beams 14 and 16 are emitted in such a way that the central beam 12 is between the Side beams 14 and 16 is located. The beams 12, 14 and 16 are kept convergent on the screen 10 by a beam converging device 26 , which is arranged along the outer circumference of the neck part 8 , while those of a magnetic deflection system 28 after passing through the beam converging device 26 in the vertical and horizontal directions, based on the screen 10 , are deflected. The color picture tube 2 also includes a mask 32 , which rests almost on the inner surface of the screen 10 and is provided with a multiplicity of holes 30 for transmitting the electron beams.

As is apparent from Fig. 2, the beam convergence device 26 consists of a pair of convergence magnetic field generators 34 and 36 , which are arranged along the beams 12, 14 and 16 aligned in one plane so that the neck portion 8 , on the outside thereof, the convergence -Magnetfeldgeneratoren 34 and 36 are arranged between these convergence magnetic field generators, and from a pair of magnetic shielding plates 38 and 40 , which are arranged on both sides of the central beam 12 and within the two side beams 14 and 16 so that they are each one of convergence magnetic field generators 34 and 36 are located, each magnetic shield plate having a convex surface that is aligned with the center beam 12 .

The magnetic shielding plates 38 and 40 are designed in such a way that the highest point of their convex surfaces comes closest to the center beam 12 , ie the distance between the highest points of the convex surfaces of the magnetic shielding plates and the center beam 12 is the shortest is.

Since the convergence magnetic field generators 34 and 36 are identical in construction, only one of these convergence magnetic field generators, for example the convergence magnetic field generator 34 , is explained and described below. Fig. 2 shows that belong to the convergence magnetic field generator 34:

A dynamic convergence unit 52 , the winding 48 and 50 of which is wound around the respective legs 44 and 46 of a U-shaped magnetic core 42 , and a static convergence unit 56 , which acts as a permanent magnet in the north-south polarity shown in FIG. 2 from the outside forth is placed on the middle part of the connecting part 54 belonging to the legs 44 and 46 .

The primary purpose of the magnetic shielding plates 38 and 40 is to prevent the convergence magnetic fields of the convergence magnetic field generators 34 and 36 acting on the side beams 14 and 16 from also influencing the center beam 12 . In addition, in the case of the exemplary embodiment, the shielding plates enable the influences of the horizontal deflection magnetic field of the magnetic deflection system 28 acting on the center beam 12 and on the side beams 14 and 16 to be standardized, with the result that the grid of the center beam 12 is aligned with that of the side beams 14 and 16 matches on the screen. The vertical deflection magnetic field of the magnetic deflection system 28 is designed to operate in the direction of the in-plane beams 12, 14 and 16 , while the horizontal deflection magnetic field is perpendicular to the in-plane beams.

If the magnetic deflection system 28 is designed in the manner described above, then the magnetic reluctance is smallest at the smallest distance M between the highest points of the respective convex surfaces belonging to the shielding plates 38 and 40 , if the vertical generated by the magnetic deflection system 28 Deflecting magnetic field acts in a direction transverse to the shielding plates 38 and 40 . On the other hand, part of the horizontal deflection magnetic flux which is forced between the two magnetic shielding plates 38, 40 is attracted by the two shielding plates 38 and 40 in such a way that the central beam 12 is influenced in the same way as the side beams 14 and 16 .

As already described above, the influence of the horizontal deflection magnetic fields emerging from the magnetic deflection system 28 is almost standardized and transmitted to the central beam 12 and to the side beams 14 and 16 , which makes it possible to vary the size of the grid belonging to the central beam 12 with the Match the size of the grid of the two side beams 14 and 16 on the screen 10 .

FIG. 3 shows another embodiment in which the same parts from FIG. 2 have the same reference numerals, while the description of these parts is omitted. This exemplary embodiment includes magnetic shielding plates 62 and 64 with their step-like convex parts 58 and 60 aligned with the central beam 12 . The same effects mentioned with FIG. 2 can be achieved by making the distance M as small as possible, in which case the distance M lies between the surfaces of the step-like parts of the shielding plates.

Claims (2)

Inline color picture tube with

• 1. a tubular bulb with a neck part ( 8 ),
• 2. an inline electron beam system ( 24 ) with three electron beam generators ( 18, 20, 22 ) lying in the inline plane for generating a central beam ( 12 ) and two side beams ( 14, 16 ) which are directed onto the fluorescent screen ( 10 ) of the color picture tube are directed
• 3. a magnetic deflection system ( 28 ) for generating the horizontal and the vertical deflection field for the horizontal and the vertical deflection of the electron beams, the horizontal deflection field being oriented perpendicular to the inline plane,
• 4. a beam convergence device ( 26 ) with two convergence magnetic field generators ( 34, 36 ) for the horizontal convergence, which, viewed in the direction of the electron beams, are arranged in front of the magnetic deflection system ( 28 ) on the outside of the neck part ( 8 ) belonging to the tube bulb and which generate the convergence magnetic fields required for convergence,
  • 4.1. two magnetic shielding devices, which are arranged within the neck part ( 8 ) opposite each of the convergence magnetic field generators ( 34, 36 ) and aligned thereon between the central beam ( 12 ) and the two side beams ( 14, 16 ) and have elevations facing the central beam ,

characterized in that

• • • 4.1.1. each of the magnetic shielding devices consists of only one curved magnetic shielding plate ( 38, 40 or 62, 64 ), which is designed and arranged mirror-symmetrically to the inline plane,
    • 4.1.2. the shielding plates in the area of the beam convergence device extend in the beam direction and essentially perpendicular to the inline plane,
    • 4.1.3. the distance between the shielding plates is smallest in the inline plane and increases with the distance from the inline plane.