DE2815020C2 - Deflection unit for a cathode ray tube - Google Patents

Description

55

The invention relates to a deflection unit for a cathode ray tube with a frame mounted around the neck of a cathode ray tube, a coil system consisting of a nen horizontal and a vertical deflection coil set and one around the effective part of the coil system closing soft magnetic yoke ring, wherein the frame is provided with adjustment means to the Yoke ring opposite the coil system in one or two mutually perpendicular directions to move perpendicular to the axis of the deflection unit.

Such a deflection unit is known from US-PS

38 10 053 known

For color television display tubes, or color picture tubes for short, the deflection unit is used to deflect three electron beams at the same time, being behind the deflection unit, a convergence device and an arrangement for adjusting Color purity can be arranged. It has been shown that in such deflection units for color picture tubes, the convergence is very difficult to adjust and that the convergence is often only precisely adjustable if the deflection coils themselves with such precision are wound that no coil asymmetries occur.

Since it is very difficult to do in practice to wind the deflection coils with such precision, solutions were sought to still be able to set the convergence without problems even when using less precisely manufactured deflection coils.

In a known from DE-OS 26 30 190 deflection unit of the type described are springs and im Frame held screws are provided, with the help of which the entire deflection unit, consisting of the coil system and yoke ring, can be stiffened in three directions with respect to the cathode ray tube. on in this way one can achieve a change in the electron beams, but no compensation of the coil asymmetry, because the coils are also adjusted and no change is made to the coils with respect to the yoke ring.

A real correction of the coil asymmetry can be achieved with a deflection unit known from US Pat. No. 3,810,053, in which the yoke ring is horizontal or can be moved vertically with respect to the deflection coil system. When applying the in this US-PS described means for moving the yoke ring, the movement takes place in a desired direction exclusively via a thread, so that the setting cannot be made without play. Continue to be a number of auxiliary rings with attached eyelets in which a thread is arranged because the Required screws cannot maintain their thread in the yoke ring. Therefore these auxiliary rings have to be included Cams and grooves be provided to ensure the guidance of the yoke ring, while also special means are required to the yoke ring in the axial Direction, d. H. to keep in the direction in which it must not move.

The invention is based on the object of creating a deflection unit in which coil asymmetries without play and using a minimum additional parts can be compensated.

This object is achieved in a deflection unit of the type mentioned at the beginning according to the invention in that the yoke ring is held on its side facing the screen of the cathode ray tube for each direction of displacement between a spring element and a diametrically opposite setting element which is provided with a contact surface which forms an inclined plane and which interacts with a correspondingly shaped counter surface on the yoke ring.

A major advantage of this deflection unit is that each adjustment element to move the Yoke ring allows free movement in a desired direction in that an inclined contact surface is provided, which the yoke ring through the from Can follow spring element exerted pressure. Because it acts directly on the yoke ring, the adjustment element can also to hold the yoke ring in the axial direction

to serve.

The spring element is preferably designed as a leaf spring and rests on a flat surface attached to the yoke ring. . Although an advantage of this up like construction is that no special measures f; to be taken to hold the Jochringens ^ brewing up, it may be desirable for structural reasons; 's be to arrange an auxiliary ring on the yoke to t in this way to enlarge its diameter, z. B. ■ ) if the size of the coils makes it difficult to grip the on: v adjusting element on the outside of the yoke ring

According to a preferred embodiment of the deflection unit according to the invention, the setting element is a screw adjustable parallel to the longitudinal axis of the cathode ray tube, the head of which is conical and interacts with the yoke ring as a contact surface ^: preferably acts the screw is rotatably mounted in the frame, the one guiding the screw head May have area.

Another preferred embodiment of the deflection unit according to the invention has the characteristic on that a conical eccentric disk is attached to the frame around an axis parallel to the longitudinal axis the cathode ray tube is rotatable and the conical surface of which forms the contact surface for the yoke ring The axis of the eccentric disc can be mounted in the frame.

Embodiments according to the invention are shown in the drawing and will be described in more detail below described. It shows

F i g. 1 schematically the structure of a deflection unit, which is arranged on the neck of the cathode ray tube

2 shows a longitudinal section through the deflection unit according to Fig. 1,

F i g. 3 shows a cross section through the deflection unit according to FIG. 1,

4 shows a detail of a preferred embodiment of the setting elements of the deflection unit Fig. 1,

F i g. 5 shows a detail of an alternative embodiment of the setting elements of the deflection unit according to FIG. 1,

F i g. 6 schematically shows a view of the screen of the cathode ray tube according to FIG. 1.

Fig. 1 shows an in-line color picture tube 1 with a screen 2, a neck 3 and three lying in one plane Electron guns 4. A deflection unit 5 mounted on the neck 3 contains a rotationally symmetrical soft magnetic yoke ring 6, coils 7 for the horizontal and coils 8 for the vertical deflection. The yoke ring 6 is at a small distance from the outer coil 8 of the coil system, whereby a displacement of the ring 6 in the horizontal and / or in the vertical direction is made possible.

For the convergence setting, the yoke ring 6 is between special setting elements for performing the required shift held. According to FIG. 2 is the yoke ring 6 with its the screen 2 facing side mounted in a frame 9. By twisting a conical head Screw 11, which is mounted parallel to the z-direction in a nut 18, the yoke ring 6 in the / -direction against the pressure of a spring element 10, for. B. a leaf spring or a plastic spring attached to a flat surface 12 of the yoke ring 6 rests, be moved. The conical surface of the screw 11 forms an inclined plane as a contact surface which interacts with a counter surface 13 present on the yoke ring 6 The screw 11 is guided on one side by an upstanding edge 19 of the frame 9

F i g. 3 shows that in addition to the spring element 10 and Screw 11 that hold the yoke ring 6 in the .y direction, a further spring element 14 and a further screw 15 are arranged on the frame 9, which the Hold yoke ring 6 in the x-direction. The screw has again has a conical head and is parallel to the

ίο? -direction stored in a nut, not shown By turning the screw 15, its conical surface on an inclined contact surface 17 of the yoke ring 6 rests the yoke ring 6 in the x direction against the pressure of the spring element 14, for. B. a leaf spring or a plastic spring, which is attached to a flat surface 16 of the Yoke ring 6 rests to be moved. When shifting in the x-direction, the yoke ring 6 is removed from the spring element 10 and guided by the conical surface of the screw 11 without affecting the setting in the y-direction will. When shifted in the y-direction of the yoke ring 6 from the spring element 14 and then from the Screw 15 out without affecting the setting in the x-direction.

F i g. 4 shows on the basis of a detail according to FIG. 2, how to hold the yoke ring 6 in the z-direction Spring element 10 can be inclined as required. In a similar way, the spring element 14, see Fig. 3, be placed inclined. The spring elements 10 and 11 can be upright or inclined Position in the raised edge of the frame 9 mounted grooves 20 or 21 (Fig. 3).

F i g. 5 shows the part of the yoke ring 6 according to FIG. 1 with the mating surface 13. Instead of using the in F i g. 2 shown conical screw 11, it is also possible, the yoke ring 6 by a provided with a conical surface to rotate flat eccentric disk 23 about an axis 22 running parallel to the z-direction. That I the eccentric disk 23 does not move in the direction of the axis 22 during adjustment, the spool 8 can move Extend as far as you want, which when using a conical screw as an adjusting element, which is in his Axial direction shifts is not possible (see Fig. 2). In the manner described, it is z. B. in mass production possible, all deflection units that leave the factory on a normal cathode ray tube to be arranged in order to compensate for possible coil asymmetries, if necessary automatically with the help of pins, which engage screws 11 and 15. It is then no longer necessary for a customer to purchase a arranging such balanced loose deflection unit well centered on a cathode ray tube, itself still aligns.

If the shape of the coils 7 and 8 (saddle coils are shown in the figure) makes it necessary, or if it is undesirable is to attach the flats 12, 16 and the flat mating surfaces 13 and 17 on the yoke ring 6 itself, the yoke ring 6 can be accommodated in an auxiliary ring (not shown). Then the auxiliary ring can have the necessary flats and flat mating surfaces and in that the diameter of the Yoke ring is as it were enlarged, the coils are not in the way of the setting means.

The screen shown in Figure 6 shows, as in the excitation of electron guns ac ^r certain cathode ray tube deflection unit configuration, the red traces (R) and the blue tracks (B), in its position on the screen B, C. D and E denotes, not dec-

ken. To compensate for these coil asymmetries, so-called astigmatic symmetrization, is used within the framework of the
Invention of the yoke ring of the deflection unit in the x and
shifted in the y-direction.

To obtain a horizontal astigmatism 5

Δ \ -Δ2

of 2.4 mm, the yoke ring had to be moved over a distance of 1 mm along the x-axis
will.
To obtain a vertical astigmatism f

δ \ -δ2 15th

of 3.8 mm, the yoke ring had to be moved over a distance of 1 mm along the y-axis
will. 20th

For this purpose 2 sheets of drawings

25th

30th

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50

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65

Claims (8)

Patent address: 1. Deflection unit for a cathode ray tube with a frame mounted around the neck of a cathode ray tube, a coil system consisting of one set of horizontal and vertical deflection coils carried by the frame and one around the effective part of the coil system closing soft magnetic yoke ring, with the frame with Adjustment means are provided to make the yoke ring perpendicular to the coil system in one or two to move mutually standing directions perpendicular to the axis of the deflection unit, thereby characterized in that the yoke ring (6) on its screen (1) of the cathode ray tube (3) facing side for each Versciiiebuwgsrichting between a Federeleinent (10 or 14) and one of this diametrically opposite adjustment element (11 or 23) is supported with a a contact surface is provided which forms an inclined plane and which interacts with a correspondingly shaped counter surface (13) on the yoke ring 2. deflection unit according to claim 1, characterized in that the adjusting element is a parallel 2s to the longitudinal axis (Z) of the cathode ray tube (1) adjustable screw (11) whose head is conical and cooperates with the yoke ring (6) as a contact surface. 3. deflection unit according to claim 2, characterized in that the screw (U) in the frame (9) is rotatably mounted. 4. Deflection unit according to claim 3, characterized in that the frame (9) has a surface (19) guiding the screw head. 5. deflection unit according to claim 1, characterized in that the frame (9) has a conical eccentric disc (23) is attached which is rotatable about an axis (22) parallel to the longitudinal axis (Z) of the cathode ray tube (11) and the conical surface of which Forms contact surface for the yoke ring (6). 6. deflection unit according to claim 5, characterized in that the axis (22) of the eccentric disc (23) is mounted in the frame (9). 7. deflection unit according to one of claims t to 6, characterized in that the spring element is designed as a leaf spring (10 or 14) and on a flat surface attached to the yoke ring (6) (12 or 16) rests. 8. deflection unit according to one of the preceding claims, characterized in that on the Yoke ring an auxiliary ring is arranged.