DE1041170B - Arrangement for centering the light spot on the fluorescent screen of a cathode ray tube - Google Patents

Description

GERMAN

The invention relates to an arrangement for centering the light spot on the luminescent screen of a Cathode ray tube with a first ring made of permanent magnetic material from a Oxides formed ceramic and contains neither nickel 5 nor cobalt, as well as with a second ring made of magnetic material arranged concentrically with respect to the first ring.

It is already known to generate the magnetic focusing field of a television cathode ray tube to use one or more rings made of permanent magnetic material that consists of a Ceramic made of oxides and contains neither nickel nor cobalt.

In addition to the means for focusing the ¹ S luminous spot on the phosphor screen of the tube nor a means for centering of the light spot must be present on the phosphor screen in a television cathode ray tube principle, which is effective in the absence of the deflection voltages used. ao

For this purpose, up to now in connection with the attached to the tube neck of the cathode ray tube permanent magnetic rings provide a centering device for the tube on the fluorescent screen Forming light spot used, which consists of two thin discs, soft on the tube neck on the the side of the rings closer to the screen are attached. The permanently magnetized disks are attached to the tube neck in such a way that the direction of magnetization is perpendicular to the axis of the Tube neck runs. Furthermore, they are rotatably arranged on the tube neck in order to center the light spot.

In addition, constructions are already known in which two spatially against each other The neck of the cathode ray tube is offset by magnets made of insulating material Perforated disc are separated from each other. A centering takes place here by turning the two magnets against each other.

Another centering device has a centering ring, which with respect to the pole face of the Focusing magnets can be moved, both by turning and by slightly Tilt.

Furthermore, another device is known in which two annular magnets rotatable on the neck of a Cathode ray tube are arranged. By a laterally displaceable along the tube neck The field strength can be changed here.

It has also become known an arrangement in which a focusing magnet on the Neck of a cathode ray tube longitudinally displaceable on-arrangement for centering the

Luminous spot on the fluorescent screen

a cathode ray tube

Applicant:
AC Cossor Limited, London

Representative: Dipl.-Ing. EF Eitner, patent attorney,
Munich 5, 'Erhardtstr. 8th

Claimed priority:
Great Britain 23 October 1952

Dennis Henry Covill,

Barnet, Hertfordshire (UK),

has been named as the inventor

is ordered and can also be tilted with respect to the neck of the cathode ray tube.

But also an arrangement with two permanent magnets, one of which is slotted in the radial direction is and which can be rotated on the neck of the cathode ray tube, being a concentric Arrangement is possible is already known.

The object of the invention is to create an arrangement which has a simpler expansion and requires a smaller length at the neck of the cathode ray tube than the known arrangements as well allows centering of the electron beam within wide limits.

This is achieved when, according to the invention, the first ring is fixedly arranged on the tube neck while the second ring is mounted both rotatable about the tube axis and tiltable perpendicular to the tube axis is.

The adjustment arrangement can be made dependent on a locking arrangement which is used for fastening of the first ring on the tube neck is required. The adjusting device has a further annular part which is arranged concentrically and rotatably with respect to the first ring.

This further annular part is of two brackets of the first ring with respect to the first ring held exactly diametrically located points.

The tilting of the second ring in relation to the first ring is effected by an adjusting screw,

809 658/339

Claims (2)

I 041 170 whose tip presses against one of the named rings, one of the named rings being pressed against the screw tip by a spring. The adjusting screw is attached to said annular part in such a way that it can be adjusted with it. The fastening device for the adjusting screw contains means by which the second ring can be rotated with respect to the first ring. The first ring is arranged to be laterally displaceable for focusing the light spot on the luminescent screen. Or another ring made of permanent magnetic material or other such rings are provided and attached in such a way that they can be moved laterally in order to focus the light spot on the tube screen. Reference is now made to the drawings, in which an example of an arrangement according to the invention is shown. 1 is a side elevation and FIG. 2 is a section along the line 2-2 of FIG. A cylindrical part 10 made of non-magnetic material has an inner diameter chosen so that it sits loosely on the neck of the cathode ray tube. The part 10 has an octagonal end plate 11 made of non-magnetic material, which is riveted to it. This end plate 11 serves as a holder for attaching the assembly to the neck of the cathode ray tube. A first permanent magnetic ring 12 is applied to the plate 11 by means of a hardenable glue. The inner diameter of the permanent magnetic ring 12 is selected so that it sits with an interference fit on the cylindrical part 10. A second ring 13 of magnetic material is arranged concentrically with respect to the ring 12. The width of the ring 13 is less than that of the ring 12. The ring 13 has two pairs of diametrically arranged circular openings 14 through which the ends of the clamps 15 protruding from the further annular part 16 engage. This ring 16, which consists of non-magnetic material, is held by the plate 11 by four resilient holders 17, the ends 18 of which sit on the ring 16. By this means, the annular part 16 can be rotated about the ring 12 while being held on the end plate 11. A rotation of the annular part 16 with respect to the ring 12 causes a corresponding rotation of the clamps 15, which in turn rotate the second ring 13. On a part of the circumference of the annular part 16, a part 19 serving for lateral displacement is attached. The ring-shaped part 16 can be rotated by applying suitable finger pressure on the slide 19. An adjustable screw 20 is screwed into a threaded bushing 21 attached to the slide 19. The end of the adjustable screw 20 presses against the ring 13, while a tension spring 22 is held between a collar of the screw 20 and an opening of the ring 13 in which the other end of the spring 22 is hooked. A rotation of the adjustable screw 20 in its threaded bushing changes the pressure which is exerted on the second ring and causes the second ring to tilt about the axis formed by the brackets 15. Because these brackets are arranged on exactly opposite points of the circular disc, the tilting of the second ring 13, which is effected by turning the screw 20, always takes place exactly over a radius of the first ring 12, in all positions in which the second ring 13 can be rotated with respect to the first ring 12. As can be seen, the position of the second ring 13 in relation to the first ring 12 is determined by the annular part 16. It can also be seen that ίο an adjusting device is attached, whereby by setting by hand, z. B. by usual finger pressure on part 19 and an adjustment of the screw 20, a rotation and a tilting of the second ring 13 with respect to the first ring is achieved. A further permanent magnetic ring 23 is also applied to the cylindrical part 10, the magnetic poles of the rings 12 and 23 being arranged opposite one another. This permanent magnetic ring 23 is fastened by a hardenable glue to a non-magnetic end plate 24, which ends in a radial direction in a sleeve 25 which is rotatably seated on the cylindrical part 10. The sleeve 25 has three locking screws 26, one of which is seated in one of three spiral grooves 27 running in the cylindrical part 10. By means of an arm 28 which extends in the radial direction and which is screwed to the plate 24, the permanent magnetic ring 23 can be rotated in the radial direction and thereby displaced laterally on the cylindrical part 10 in the spiral grooves 27. The part of the adjusting arm on which it is rotated by hand is provided with an insulating sleeve 29. When the adjusting arm 28 is rotated, the permanent magnetic ring 23 is displaced sideways with respect to the first permanent magnetic ring 12, and this lateral displacement can be used to focus the light spot on the screen of the cathode ray tube, in particular a television cathode ray tube. Patent λ ν s ρ r t ■ ν. η ε: 1. Arrangement for centering the light spot on the screen of a cathode ray tube with a first ring made of permanent magnetic material made of a ceramic formed from oxides and contains neither nickel nor cobalt, as well as with a second ring made of magnetic Material arranged concentrically with respect to the first ring, characterized in that the first ring (12) is fixedly arranged on the tube neck, while the second ring (13) is both is rotatably mounted around the tube axis and tiltable perpendicular to the tube axis. 2. Arrangement according to claim 1, characterized in that the ring (13) by means of holders (15) is mounted on a rotatable ring (16) made of non-magnetic material and by means of one of the adjustable screw device (19, 20, 21, 22) held in the ring (16) can be pivoted. Considered publications:
U.S. Patent Nos. 2,544,898, 2,592,185, 2,597,298, 2,606,301; British Patent Nos. 443 682, 530 914, 666 907. 1 sheet of drawings