DE1157711B - Device for correcting the geometry of television images - Google Patents

Description

Apparatus for correcting the geometry of television pictures The invention relates to an apparatus for correcting the geometry of television images through rod-shaped permanent magnets provided on the deflection unit of the picture tube, which are arranged there in brackets with which they are relative to the neck of the picture tube are adjustable.

It is known that distortions in a television picture are caused by irregularities arise on the deflection unit or the picture tube by connecting additional Balance bar or disc magnets on the frame of the deflection unit. Be there then the correction magnets mostly with bendable sheet metal holders on the deflection unit attached, whereby these small magnets by bending these brackets accordingly can be brought into a position in which they remove the undesired distortions of the television picture correct as intended. However, this correction procedure is very cumbersome and expensive, and so in other known deflection units two are opposite one another arranged bar magnets mounted in brackets that slide on a guide are displaceable in the direction of the longitudinal axis of the picture tube. With these, in sliding Brackets seated correction magnets one has above all the possibility of the deflection system to be able to adapt to tubes with different neck lengths. Unbalanced, in particular However, trapezoidal vertical distortions must also occur with this arrangement additional magnets clamped to the frame of the deflection unit must be compensated.

Another known correction device has longitudinally magnetized Bar magnets, each of which is attached to a multi-part bracket. These Bracket consists of an elongated resilient bracket that runs along a groove on the Circumference of the frame of the deflection unit is displaceable and which carries a slider, which is displaceable in the radial direction towards the tube neck or away from it. The retaining clip, which holds the bar magnet, is then rotatably seated on this slider wearing. The bar magnet is then also still due to the rotatably arranged retaining clip can be swiveled in the tangential direction. However, such a device is very complicated in construction, and with it the correction magnet is therefore also very difficult to adjust.

The disadvantages of the known devices are eliminated when according to the invention the rod-shaped magnets in a preferred direction diagonal to their longitudinal direction are magnetized or if each rod-shaped magnet is magnetized axially symmetrically and in an enveloping body made of magnetically indifferent material to its longitudinal axis is embedded, and if the diagonally magnetized magnets or the device consisting of magnet and enveloping body both in the direction of The longitudinal axis of the picture tube can be displaced through the holder and in its holder are themselves arranged to be rotatable about their longitudinal axis.

The use of diagonally magnetized bar magnets has the advantage that depending on the size of the angle between the rod longitudinal axis and the direction of magnetization Magnetic lines of force at the two ends of the rod to a greater or lesser extent step out. As a result, such a bar magnet can have a corrective effect in advance of a certain strength. The second embodiment has the Advantage that magnetized bar magnets can also be used in the usual way. However, they then have to be cast diagonally into an enveloping body, made of plastic or another non-magnetizable material. These The form of a correction magnet can be used in particular when likely only slight corrections are necessary.

The particular advantage is that a large number of Correction magnets can be saved because using the same magnets both Vertical pillow distortions as well as additional asymmetrical vertical distortions, preferably trapezoidal distortions of the television picture can be corrected. It is no longer necessary, as was previously the case, for the correction of trapezoidal ones Distortions caused by manufacturing inaccuracies on the deflection unit or caused on the picture tube, several additional magnets on the deflection unit to be ordered. One corrects these verticals with the described arrangement Trapezoidal distortions now by moving the bar magnets in their holder its longitudinal axis rotates while the pincushion distortions of the television picture are known Way by horizontally moving these magnets in the direction of the longitudinal axis of the The neck of the picture tube can be corrected.

So that the magnets do not move axially when rotating in their holder move and thus cause an undesirable distraction effect, they are by a notch in its circumference and a bead in its holder or by a Stop on the frame of the deflection unit against displacement in the direction of its longitudinal axis secured. They expediently have a slot at one or both ends or a shaped edge for attaching an adjusting tool, so that the correction setting can be done quickly and easily with a long trim key. details the device described are shown below with reference to in the drawing Embodiments described in more detail.

1 shows a deflection unit in a perspective view for line and picture of a television receiver. With 1 it is made of insulating material Designated housing or frame of the deflection unit.

With the frame t, the deflection coil sets are held and over pushed the neck of the picture tube. Above and below on frame 1 of the deflection unit two rod-shaped correction magnets 2 and 3 are arranged, which consist of one per se known ferrite and serve to distort the image geometry in, vertical Balance direction. The bar magnets 2 and 3 are at the end of slide-like Brackets 4 and 5 fixed in a guide 6 and 7 on the frame 1 in the direction the picture tube longitudinal axis are mounted displaceably. They are moved by means of Adjusting screws 8 and 9. These adjusting screws are used to move the mounting slides 4, 5 at the same time also held on their seat in the guides 6 and 7, respectively. The bar magnets 2 and 3 also have a slot 2 a and 3 a at their end visible here, in which you insert a trim key made of insulating material and the relevant Correction magnet can rotate around its longitudinal axis. The bar magnet end can also in a shaped edge, e.g. B. in a square, run out. So that the magnets 2 and 3 do not move in the longitudinal direction in their holder when twisting and thus unwanted deflection effects can arise is in the scope of the magnets one Recessed notch into which a bead 10 or 11 of the brackets 4 or 5 engages, when the holder end has been bent around the magnet. But it can also at the end of the bar magnets 2 and 3 opposite the end of the position, a stop be provided on the frame 1, by which the bar magnets are prevented from to move in their holder. In Fig. 2 it is shown in which way the bar magnets 2 and 3 are magnetized. The magnetization does not run here, as usual, parallel to the axis of the magnet, but in the direction of one of the Longitudinal axis A-B inclined axis, d. H. in a diagonal direction through the rod. Through this the north and south poles of the resulting magnet are eccentric upwards and downwards, respectively offset. This then results in a helical shape on both sides of the rod Magnetic lines of force running from pole to pole, one of which is shown in Fig. 2 is shown in dashed lines and with an arrow. This on an obliquely magnetized Ferrite rod caused displacement of the poles and the magnetic lines of force in the described arrangement for the correction of additional, asymmetrical, especially trapezoidal distortions of television images are used. The magnetic field is inclined to the member axis. This has with the drawn position of the magnet north pole offset upwards a smaller one on the left and a larger additional one on the right The result is deflection of the electron beam below.

In addition to a vertical pincushion distortion, which in on eliminated in a known manner by horizontally moving the magnets 2 and 3 becomes, additional asymmetrical vertical distortion of a television picture balanced. As shown for example in FIG. 2, these are consistently involved about trapezoidal distortions due to vertical displacements of the electron beam written line L. As can also be seen from the illustration in FIG is, by the vertically offset poles of the relevant Bar magnet the shifted lineL through the closer S-pole in the direction of the Arrow raised, thus eliminating this distortion.

If you now turn the bar magnet by 90 ° around its longitudinal axis A-B, you get the different effect of the eccentrically offset magnetic poles in the vertical not for wear because now both poles in the horizontal plane, albeit offset to each other, lie. In this position there is no additional distraction force in effective in the vertical direction. If you turn the magnetic bar in the same direction by further 90 °, its N pole moves downwards and its S pole moves upwards. This will be then in particular additional trapezoidal distortions on the other half of the television picture corrected. Thus, with such an arrangement there is the possibility of simply turning a diagonally magnetized correction magnet even more to eliminate left or right-sided vertical distortion in a television picture.

Another embodiment of a correction magnet is shown in FIG. 3 shown. Here one is magnetized axially symmetrically in a known and customary manner Bar magnet 12 inclined in a cylindrical enveloping body 13 made of magnetic indifferent material, for example in plastic, embedded. This enveloping body 13 can then also be provided with a latching groove 14 into which a bead 10 and 11 of a slide-like holder 4 and 5, respectively, engages.

Claims (4)

PATENT CLAIMS: 1. Device for correcting the geometry of television images through rod-shaped permanent magnets provided on the deflection unit of the picture tube, which are arranged there in brackets with which they are relative to the neck of the picture tube are adjustable, characterized in that the rod-shaped magnets (2, 3) in one are magnetized in a preferred direction diagonal to their longitudinal axis and that the magnets (2, 3) both displaceable in the direction of the longitudinal axis of the picture tube through the holder as well as in their holder itself are arranged to be rotatable about their longitudinal axis (Fig. 1 and 2). 2. Apparatus according to claim 1, characterized in that the magnetic body (2, 3) by a notch (10, 11) embedded in its periphery in its holder (4, 5) or by a stop on the frame (1) of the deflection unit against Displacements in the direction of their longitudinal axis are secured (Fig. 1). 3. Apparatus according to claim 1 or 2, characterized in that the magnetic body (2, 3) at one or both ends have a slot (2a, 3a) or a shaped edge for attaching an adjusting tool (Fig. 1). 4. Device for correcting the geometry of television images through rod-shaped permanent magnets provided on the deflection unit of the picture tube, which are arranged there in brackets with which they are relative to the neck of the picture tube are adjustable, characterized in that each rod-shaped magnet (12) is axially symmetrical magnetized and in an enveloping body made of magnetically indifferent material (13) is embedded obliquely to its longitudinal axis and that the magnet (12) and Enveloping body (13) existing device both in the direction of the longitudinal axis of the picture tube rotatable about its longitudinal axis by the holder as well as in its holder itself is arranged (Fig. 3). Publications considered: German Patent Specifications No. 620173, 723 872; German utility model No. 1718 250; German patent application F 6918 VIII a / 21 a (published May 13, 1953); German interpretation document T 10 630 VIII c / 21 g (published May 30, 1956).