FI59005B - AVLAENKNINGSSYSTEM FOER FAERGTELEVISIONSBILDROER - Google Patents

Description

15 ^ * 1 Μ <ii) ,, uu „LUTU, JutKA, * u Qnn JSTf lJ '' UTLAeGNINeSSKKIFT 5 9005 • C (45) Patent granted on 05 May 1931

Patent raeddelat ^ (51) Kv.Hc? /Int.a3 H 00- N 5/64, H 01 J 29/76 SUOMI — FINLAND (21) μ «* μ» ιμβ> ιι »-ρ» · ι «- akuin, 760239 (22) Hakanilapeivl — Anaehnlngidag 30.01.76 (23) AikupUvt— GikigtMCsdaf 30.01.76 (41) Tullut fulVlMfcal - BUvfc offantMg 15.08.76

Patents' and registrars .... ________. . .....

Patant · och registerstyrelsen '' AraMun uttafd oeh utUkrtfwn puMkand 30.01.8l (32) (33) (31) Pyy4 * «r muoIImimi — S« glrd prloritrt lU. 02.75

Federal Republic of Germany-Förbundsrepubliken Tyskland (DE) P 2506268.k (71) International Standard Electric Corporation, 320 Park Avenue,

New York, New York 10022, USA (72) Patrick Brown, Wernau, Friedrich Nelle, Esslingen, Germany Federal Republic of Germany (DE) (7 * 0 Oy Kolster Ab (5 * 0 Derogation system for color television picture tubes - Avlänknings-system för färgtelevisionsbildrör

The invention relates to a deflection system for color television picture tubes, in which the electron beam generating systems required to produce individual color components are spatially separated, preferably in-line, in which the deflection system produces an electromagnetic deflection field and is arranged outside with two independent deflection windings.

It is known from German application 24 11 084 that in order to achieve good convergence, the magnetic fields must have a certain distribution on both end sides of the deflection system. It is further apparent from this publication that in a color television picture tube having e.g. cushion-shaped.

According to known methods, the action of the magnetic field as required can be achieved by a corresponding choice of the rotational distribution in the z-direction of the deflection windings and by structural measures in the core of the winding, which is usually of ferromagnetic material.

For a horizontally acting magnetic field, the same requirements apply as above for a vertically acting magnetic field, except that for conventional forms of electron beam generating systems, the magnetic field must be cushioned in front of the deflection system and barrel-shaped at the rear.

These requirements apply regardless of whether the deflection system consists of saddle windings or toroidal windings or a combination of both types of windings.

The object of the invention is to provide a deflection system as described at the outset, which meets the above requirements, but in which, in contrast to the deflection systems hitherto, special arrangements in said rotation distributions and in the contour of the ferromagnetic core are not necessary.

The solution to this problem is characterized in that ferromagnetic elements are arranged in a magnetic field on the front and / or rear side of the deflection system, that the ferromagnetic elements are arranged symmetrically with respect to the longitudinal axis of the deflection system and symmetrically with respect to the main deflection axis that in each case the elements belonging to the at least one main deflection axis are located in one plane perpendicular to the longitudinal axis of the deflection system.

Compared to the known measures, which in practice, in addition, both are used simultaneously, the solution according to the invention has the advantage that the desired result is achieved by using it alone. This is advantageous both from a manufacturing point of view and also when adjusting existing tolerances during the installation phase.

3 59005

Especially with regard to the contour arrangements of the ferromagnetic core, it is advantageous that when winding or installing the windings it is not necessary to take into account the relative position of the winding in relation to the contoured, e.g. notched, contour change.

According to a further preferred embodiment of the invention, the ferromagnetic elements are mounted so as to be movable together and / or individually.

This procedure allows the adjustment or correction to be performed in the case in question, optionally for each direction of the magnetic field and for each side of the deflection system.

The best possible adaptation of the practical distribution of the magnetic field to the theoretical distribution at the end sides of the deflection system is achieved by making the horizontally deflected ferromagnetic elements circular segments located element pairs i.

Further details and advantages of the invention will be apparent from the following description and the accompanying drawing.

Figure 1 shows an exemplary embodiment for a deflection system according to the invention.

Figures 2a-2c show three main forms of magnetic field distribution.

Figure 1 schematically shows only those details of the deflection system which are necessary for an understanding of the invention.

In the coordinate system, the x-axis means the horizontal axis of the color television picture tube and the y-axis the vertical axis, and the z-axis is the longitudinal axis of the deflection system, i.e., the color television picture tube.

The embodiment shows the ferromagnetic core 10 with its deflection windings 11, which are shown here as toroidal windings. The details of the field distribution of such a system of derogations do not need to be specifically mentioned in this context, as they are well known, referring only to the German application 24 11 084 mentioned at the beginning or to Funkschau 1974, booklet 23, p. 876-880.

“59005

The deflection system has a trumpet-like shape, with the large-diameter end face facing the screen. On the rear end side of the deflection system 10, 11, ferromagnetic elements are arranged to act on the magnetic field in said manner. The ferromagnetic elements 21 and 22 are adapted to influence the distribution of the field in the horizontal deflection winding, i.e. to deflect the electron beam in the x-direction.

As shown in Figure 1, elements 21 and 22 are circular segments arranged in the x-y plane and made of a ferromagnetic material. The circular segments form an arc of about 90 °, the center of which is on the x-axis.

The elements 31, 32, 33 and 34 act in a desired manner to influence the horizontal deflection field. These elements, which are also located in the x-y plane, are arranged in pairs 31 and 33 and 32 and 34 as rod elements parallel to the horizontal, i.e. x-axis.

This embodiment of ferromagnetic elements has proved advantageous in practice.

It may happen that deflection errors occur during the manufacture of the deflection system and tubes or during the installation on the television set, which make it necessary to move the elements 21, 22, 31, 32, 33 and 34 to correct the field distribution hitherto considered ideal.

For this purpose, the elements can be movably mounted in a manner well known to a person skilled in the art, so that each element can be moved individually.

With a corresponding design, the elements shown here separately for each deflection direction can also be connected structurally, e.g. by connecting the rod-shaped elements 31 and 32 to the ring element 21 and the rod-shaped elements 33 and 34 to the ring element 22.

The quantitative dimensioning of the arrangement of the size and space of the elements affects the sensitivity of the system and is also dependent on the nominal values of the deflection system and thus also on the color picture tubes.

Figures 2a, 2b and 2c show the basic shapes mentioned at the beginning of the field distribution, i.e. Figure 2a shows a pad-shaped distribution, Figure 2b a homogeneous distribution and Figure 2c shows a barrel-shaped distribution.

Claims (3)

5 59005 Claims. A deflection system for color television picture tubes, wherein the electron beam generating systems required to produce individual color components are spatially separated, preferably in-line, wherein the deflection system produces an electromagnetic deflection field adapted to -winding, characterized in that ferromagnetic elements (21,22,31,32,33,34) are arranged on the front and / or rear side of the deflection system (10, 11) in a magnetic field, that the ferromagnetic elements are arranged symmetrically on the longitudinal axis (z) of the deflection system symmetrically about the main deflection axis (x, y, i.e. horizontal, vertical axis) and that at least one of the principal deflection axes (21, 22 , 31, 32, 33, 34) are located in a plane perpendicular to the longitudinal axis (z) of the deflection system. 2. Deflection system for CRTs, characterized in that the ferromagnetic elements are mounted to be movable together and / or individually. A deflection system for color television picture tubes, characterized in that the ferromagnetic elements (21, 22) belonging to the horizontal deflection direction (x) are made as circular segments and form a circular arc of about 90 °, and the ferromagnetic elements (31) belonging to the vertical deflection direction (y) 32,33,34) are in each case made in pairs of elements located parallel to the horizontal axis (x-axis).