DE1269163B - Device for static and dynamic lateral adjustment of electron beams in a color display tube - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

H04n

German KL: 21 al -34/11

Number:
File number:
Registration date:
Display day:

P 12 69 163.3-31
March 16, 1966
May 30, 1968

The invention relates to a device for static and dynamic lateral adjustment of electron beams in a color display tube with three around the tube axis arranged electron gun and with one to the lateral displacement direction perpendicular magnetic fields, one of which is directed opposite to the other two, Generating permanent magnets and coils having device, in which the magnetic fluxes in the Tube can be partially guided through soft magnetic baffles.

In the known picture tubes there is a convergence point of the three electron beams Screen with fine holes, each of which allows three very thin diverging rays to pass through each a point on the screen of the tube in a blue, red or green color to light up brings.

In a color television display tube with three electron beams for displaying a color picture are the three electron gun e.g. B. on an equilateral triangle within arranged in a plane parallel to the plane perpendicular to the longitudinal axis of the tube the center of the playback screen is. Those emerging from such electron beam systems Electron beams converge only in the center of an ideal picture tube (without tolerances of the three Beam systems) and numerous measures must therefore be taken to ensure that convergence is achieved both in the center of the image and at the edges of the screen. One In addition to the very important adjustment of the color unit magnets (adjustment of the color unit in the center of the picture) and the correct position of the deflection center point of the deflection coils (adjustment the deflection unit in the axial direction of the picture tube before a perfect color purity is achieved also outside the center of the picture) Condition for the z. B. to excite the red fluorescent dots the electron beam emanating from the electron beam system also has this luminous point on the Screen hits as exactly as possible into the edges of the display screen.

For this reason, various devices are arranged one behind the other around the tube neck, which allow adjustment of the electron beams together or against one another or with one another. One such device is the so-called color purity magnet, which consists of two weakly magnetized sheet metal rings that are used in a device for static and dynamic
lateral adjustment of electron beams
in a color display tube

Applicant:

NV Philips' Gloeilampenfabrieken, Eindhoven
(Netherlands)

Representative:

Dr.-Ing. H.-D. Zeller, patent attorney,

2000 Hamburg 1, Mönckebergstr. 7th

Named as inventor:
Constantius Johannes Waltherus Panis,
Cornelius Johannes Henricus Paridaens,
Eindhoven (Netherlands)

Claimed priority:

Netherlands of March 20, 1965 (03 575)

rotation against each other or in the same direction rotation of both magnetic rings around the neck of the picture tube deflect three electron beams together more or less in a certain direction.

Another unit is the facility for radial, static and dynamic convergence, the is arranged approximately at the level of the end of the electron beam systems around the tube neck and by means of U-shaped electromagnets that often contain permanent magnets for static convergence Via corresponding pole pieces located in the tube system in the plane of the individual electron beams generated magnetic fields which, when changed, produce a radial, i. H. one to the center of the picture Allows the individual electron beams to be shifted outwards towards or from the center of the image. With this unit it is possible to completely interlink the red and green electron beams and to align with the blue electron beam with the exception of the lateral adjustment. To the Lateral shift of the blue electron beam in relation to the red and green must be one more

809 557/317

further convergence unit arranged around the tube neck be, and this convergence unit relates to a device for lateral adjustment of electron beams. This convergence unit is also referred to as the blue lateral unit and is mostly arranged at the level of the grid 3 of the systems of a color television picture display tube. For better Guiding the magnetic fields in the tube systems are, as from the French patent specification 1367 061 known, the individual grid 3 parts held with metal sheets, which are made of an iron-nickel alloy exist and therefore give the magnetic field lines a certain direction. The purpose of the lateral adjustment of the electron beams is to add one more possibility create the red and green that have already been brought into line by the radial convergence unit Bringing electron beams with the remaining blue electron beam in congruence, and not only in the center of the picture, i.e. not only statically, but also across the entire screen when distracted with an alternating voltage, i.e. also dynamically.

From this prior art, which is essentially results from the above-mentioned document, the invention is based. It shows an arrangement of the type mentioned and is characterized in that the device consists of a soft magnetic, U-shaped bent strip-shaped There is a yoke on which a non-magnetic support strip is parallel to the web of the U and between it and an elongate support rotatable about its longitudinal axis is arranged on the web, which is at the level of on the carrier strip symmetrically to the one electron beam axis attached field conductors transversely to it Has longitudinal axis magnetized permanent magnets, of which the magnetic flux on the one hand over each an outer web part, then one leg part each and finally over to the inside to the other two Electron beam axes bent towards the leg ends of the yoke guided into the tube, in this then partly in a vacuum and partly via soft magnetic guide plates via the field conductor to the carrier approximately parallel ends of the field conductors and on the other hand to these field conductors via a web center part of the yoke and again partly in a vacuum and partly over a guide plate.

Furthermore, according to the invention, the web part can be in the middle of the electron beam axis mentioned first be curved out. In addition, between the curved web center part and the neck of the tube a coil serving for dynamic convergence adjustment of this electron beam can be arranged. There can also be one around each field conductor for dynamic convergence adjustment of the other two Electron beam serving coil be arranged.

The invention consists of a device made of a soft magnetic, U-shaped bent, strip-shaped Yoke. This yoke is now designed in such a way that the magnetic field lines in the Enter tube creating three magnetic fields, one of which is opposite to the two other is directed.

The one upper magnetic field is z. B. intended for the blue electron beam, so must be perpendicular to whose axis run, while the two lower magnetic fields are opposite to the magnetic field for the blue electron beam and perpendicular to the axis of the red and green electron beams. The device according to the invention now contains permanent magnets for static adjustment of these three electron beams. When the carrier, in which two permanent magnets are arranged, rotates, the magnetic fields in the tube equally, but changed in opposite directions. That way it is possible, the two red and green electron beams that are already in congruence together in relation to the blue one, so that these three rays are at the height of the shadow mask in the picture tube are exactly in line and on the screen exactly the assigned fluorescent points without cutting an adjacent fluorescent point of a different color.

The special design of the soft magnetic sheets is not only for the effect in the generated Distraction of the utmost importance, but the unit must also be built in such a way that only with A lateral adjustment of the electron beams is possible with a single movement.

The soft magnetic yokes or field conductors according to the invention then also carry the necessary Coils for the corresponding dynamic lateral adjustment.

The invention is explained in more detail below with reference to the drawing, in which an embodiment in a transverse to the axis of the display tube guided cut is shown.

The drawing shows in cross section the tube neck 1 of a three-color display tube in which on known manner an electron gun. 3 for the blue color, one labeled 5, for the red color and one labeled 7, for the green color via z. B. iron carrying handle 9 and glass support rods 11 extending in the axial direction in the tube are attached. To the Tube neck 1 is a device for the lateral, in the present case horizontal displacement of the the electron guns 3, 5 and 7 generated electron beams arranged from a substantially U-shaped curved strip-shaped yoke 13 made of soft ferromagnetic Material, e.g. B. μ-metal, whose ends in the drawing downward inward and towards the “red” electron beam generation system 5 or towards the “green” 7. As part of of the yoke 13 are two on either side next to the "blue" electron gun 3 strip-shaped magnetic field conductor on a common non-magnetic support strip 15 symmetrically arranged to the tube neck 1 and to the yoke 13, each of which consists of a tangential to the tube neck 1 the display tube along extending part 17 and an approximately parallel to the bottom part of the U-shaped Yoke 13 extending part 19 exist. Between the mentioned bottom part and the one to it parallel parts 19 of the field conductor is located in the longitudinal direction of the bottom part extending, about the longitudinal axis rotatable, preferably tubular carrier 21, on which at the points of the two Field conductor 19 is each attached a transverse to the mentioned longitudinal axis magnetized permanent magnet 23. the Permanent magnets 23 are of the same strength and can be magnetized diametrically in the manner shown Be cylinders arranged in the tubular carrier 21 rotatably mounted in the legs of the yoke 13 are. The on the axis of the carrier 21

perpendicular magnetic axes of the permanent magnets 23 are parallel to one another.

It is readily apparent from the drawing that the two permanent magnets 23 in the yoke 13 on the one hand and induce opposite magnetic poles in the field conductors 17, 19 on the other hand, whose Strength can be changed by rotating the carrier 21. In the case shown, arise at the free ends of the U-shaped yoke 13 two north poles of the same strength, while on the parts 17 of the field conductor 17, 19 two south poles of the same strength are created. Preferably, the bottom part of the yoke 13 is in the middle bent towards the “blue” electron beam generation system 3; the curved web center part 25 forms, as can be seen from the drawing, a third north pole.

The drawing illustrates the course of the lines of force of the magnetic fields occurring in the tube neck 1, which can also partially run through the guide plates 9 if they are made of ferromagnetic Material. Between the bent web middle part 25 of the bottom of the yoke 13 on the one hand and the parts 17 of the field conductors 17, 19 running along the tube neck 1, on the other hand, result at the location of the blue electron gun 3, a substantially downward one Magnetic field, which is a lateral, in the illustrated case horizontal shift (actually a constant Deflection) of the beam generated by this electron gun according to arrow 27 brings about. Between the free ends of the legs of the yoke 13 on the one hand and the aforementioned parts 17 The field conductor on the other hand creates magnetic fields that take place at the point of the two electron gun 5 and 7 are directed essentially vertically for the red and the green beam, respectively, and Displacements of these rays according to arrows 29 and 31 in a lateral direction, opposite to arrow 27 Cause direction. So if the "red" and the "green" beam emitted by the electron gun 5 and 7 are generated, with a known device for radial convergence (not for the sake of clarity is shown) are previously brought into line with the position of the shadow mask in the tube and the "Blue" beam, which is generated by the electron gun 3, with the aid of the same If the device is brought to the same height as the other two beams, it is possible to pass through Rotating the carrier 21 to bring the three electron beams in the shadow mask plane to coincide. Through this, that the whole arrangement is symmetrical and remains symmetrical in all settings no disruptive displacements of the beams in undesired directions during the adjustment on.

In order to prevent displacements of the carrier 21 in the axial direction, the bottom part of the Yoke 13 an auxiliary yoke 33 can be attached to which a tongue 35 is formed, which between two adjacent, Concentric rings 37 attached to the carrier 21 rests resiliently on the carrier 21. The tongue 35 also serves to hold the carrier 21 in the set rotational position.

With the aid of the device described, it is possible that the three electron beams converge in the undeflected state and at the point of Shadow mask in the tube come to cover.

If the electron beams are periodically deflected in two directions in the usual way, they occur Deviations in the coverage of the rays, which can be seen in a manner known per se, with the help of Coils through which periodic current components dependent on the deflection currents pass, have it corrected (so-called dynamic convergence correction). Such a coil, which is in the Drawing is denoted by 39, between the curved web middle part 25 of the bottom of the yoke and the tube neck 1 and causes a periodic displacement of the adjacent, in the illustrated case blue electron beam. Another possibility is that two Coils 41 encompass the strip-shaped field conductors between the parts 17 and 19, respectively. These coils serve to periodically shift all three electron beams.

Instead of the carrier 21 with two permanent magnets 23, a rod with a circular cross-section can be made from Permanently magnetizable ceramic material use bark only in those places where otherwise the permanent magnets 23 are located, is diametrically magnetized.

Claims (4)

Patent claims: 1. Device for static and dynamic lateral adjustment of electron beams in a color display tube with three electron guns arranged around the tube axis and with a magnetic field perpendicular to the lateral displacement direction, one of which is opposite to the other two is directed, generating permanent magnets and coils having device, in which the magnetic fluxes in the tube partly through soft magnetic baffles be guided, characterized in that the device consists of a soft magnetic, U-shaped bent strip-shaped There is a yoke (13) on which a non-magnetic support strip (15) is parallel to the web of the U and between this and the web, an elongated carrier (21) rotatable about its longitudinal axis is arranged are, the level of the support strip (15) symmetrical to the one electron beam axis fixed field conductors (19) transversely to their longitudinal axis magnetized permanent magnets (23), of which the magnetic flux on the one hand via an outer web part, then one leg part and finally over bent inward towards the two other electron beam axes Leg ends of the yoke (13) guided into the tube (1), in this then partly in a vacuum and partly via soft magnetic guide plates (9) via the field conductors (17) to the carrier (21) approximately parallel ends of the field conductors (19) and on the other hand to these field conductors (17) a web center part (25) of the yoke (13) and again partly in a vacuum and partly via a guide plate (9) is performed. 2. Device according to claim 1, characterized in that the web middle part (25) in the Center is bent towards the first-mentioned electron beam axis. 3. Device according to claim 2, characterized in that between the bent out Bridge middle part (25) and the neck of the tube (1) a coil (39) serving for dynamic convergence adjustment of this electron beam is arranged is. 4. Device according to one or more of the preceding claims, characterized in that that around every field leader (between 17 and 19) one for dynamic convergence adjustment of the other two electron beams serving coil (41) is arranged. Pamphlets considered; French patent specification No. 1367 061. 1 sheet of drawings 809 557/317 5.68 © Bundesdruckerei Berlin