DE2249474A1 - COLOR TUBE - Google Patents

Description

PATENT LAWYERS F.W. HEMMERICH GERD MÜLLER D..GROSSE 22 271

- bra -

2 249474 September 25, 1972

-El-

Tokyo Shibaura Electric Co. Ltd. «, Kawasaki / Japan Color picture tube

This invention relates to a color picture tube to which Electron beam system include three electron guns, that are aligned in a line.

So that one of the electron beam system with three arranged in line Electron gun ?! emitted electron beam system can be converged from a central beam and two side beams onto the screen of a color picture tube, is so far with a convergence system or with a convergence unit been worked, which is attached to the outside of the neck part and the funnel part of the tubular body has been. In addition, in a conventional manner on the neck parts and funnel parts belonging to the tubular body An electromagnetic deflection device has been arranged at a certain distance from the electron beam system, however the disadvantage that the three of the electron guns could not be avoided with the color picture tubes customary up to now projected electron beams are not fine enough the screen of the tube could be converged, which in turn led to a deterioration in the image quality, because the magnetic fields generated by the electromagnetic deflection device for the vertical deflection and the horizontal deflection badly affected the electron beams passing the convergence unit, i.e. because of magnetic fields of inconsistent strength acted on the central ray and the side rays.

The aim of this invention is therefore to provide a color picture tube in which the electron guns are arranged in a line. This color picture tube with a simple electron beam convergence unit, which have a good ray convergence

409816/0575

is able to achieve without losing out on the inconsistent Strengths of the magnetic fields to be influenced by the electromagnetic deflector from on the iodine Electron beams act.

The color picture tube of this invention thus includes: an electron beam system from three electron guns arranged in a line, which project or emit a central beam and two side radiators flanking the central beam, this electron beam system within the to the kinescope bulb belonging neck part is arranged; a ray convergence system, which is arranged along the path to be traveled by the electron beams such that each these electron beams are converged on the screen of the picture tube by compensation or correction; Finally, too another electromagnetic deflector that carries the electron beams after passing the ray convergence device distracts vertically and horizontally with respect to the screen. The aforementioned convergence device includes two convergence magnetic field generators, which are located outside of the Tubular piston belonging neck part are attached, as well as two magnetic field shielding plates, each between the inside of the tube the central ray and one of the side rays and are arranged between the central ray and the other of the side rays. Each on one of the aforementioned convergence magnetic field generators aligned magnetic field shielding plates each have a convex surface facing the central beam is aligned, which in turn has the consequence that the influences of the caused by the deflection device Vertical and horizontal deflection magnetic fields respectively one of the central and side beams is matched by means of the two magnetic or magnetic field shielding plates

409816/05 7

-61 «

This invention will now be described below with reference to the exemplary embodiment shown in the drawing (the one shown in the drawing Embodiments) explained in more detail. The drawing shows in: -

Fig. 1 A vertical section through the execution of a Color picture tube of this invention "

2 shows a cross section through the color picture tube, through the part of the tube in which the beam convergence device is arranged.

3 shows the arrangement of the beam convergence device laid section through a color picture tube as another embodiment of the subject of the invention

As can be seen from FIG. 1, the color picture tube 2 consists of a tube piston with a front plate -k _t, a funnel part 6 and a neck part 8. The inner surface of the front plate k is coated with a fluorescent screen 10. The electron beam device mounted in the interior of the neck part 8 belonging to the tube piston includes the three electron guns 18, 20 and 22 aligned in line, from which a central beam 12 and the side beams Xh and 16 are emitted in such a way that the central beam 12 is in the middle between the Side rays Ik and 16 are located. From the beam convergence device 26 which is arranged from the outside along the circumference of the neck portion 8, each of the beams 12, lh and L6 converged on the screen 10 and compensates ^ whereas by the electromagnetic deflector 28 after passing through the beam convergence device 26 with respect the rays are deflected on the screen 10 in the vertical direction and in the horizontal direction. To the color picture tube

Λ09816 / 0576

224 9m

but also includes a mask 32 which rests almost on the inner surface of the screen 10 and is provided with a large number of holes to allow the electron beams to pass through. As can be seen from Fig. 2, the beam convergence device or the beam convergence system 26 consists of the two convergence magnetic field generators Jk and 36, which are arranged along the aligned electron beams 12, Ik and 16 opposite each other in such a way that the previous

mentioned neck part, on the outside of which the convergence magnetic field generators 3 ^ and j6 are arranged, lies between these convergence magnetic field generators, as well as of the two magnetic field shielding plates 38 and 4θ, which are on the inside of the two side beams Ik and 16 in each case on both sides of the central beam are inserted into the neck portion of the picture tube in such a way that they are respectively opposite one of the aforementioned convergence magnetic field generators 3k and 36, the convex surface of each magnetic field shielding plate being aligned with the central beam 12. The construction of the magnetic field shielding plates 38 and kO are designed in such a way that the highest point of their convex surfaces is assigned closest to the central beam 12, that is to say that the distance between the highest points of the magnetic field shielding plates and their convex surfaces and the Central ray 12 is the shortest. Because the convergence magnetic field generators Jk and 36 are made the same or identical in construction, only one of these convergence magnetic field generators, for example the convergence magnetic field generator 3k, is explained and described below. Fig. 2 shows that the convergence magnetic field generator 3k include: a dynamic convergence unit 52, whose

409816/05 7S

Coils or windings kQ and 50 are wound around the respective legs kk and k6 of a U-shaped magnetic core or magnetic yoke k2 , but also a static convergence unit, which acts as a permanent magnet in the north-south polarity represented by Pig 2 from the outside the middle part of the connecting part 3k belonging to the legs kk and 46 is attached. The magnetic field shielding plates 38 and kO are primarily intended to prevent the convergence magnetic fields of the convergence magnetic field generators 38 and kO acting on the side beams Ik and 15 from also influencing the central beam 12 Standardization of the influences acting by the convergence magnetic field generators 3 ^ and 36 on the central beam 12 and on the side beams Ik and 16, without, however, being exposed to any influences from the magnetic fields generated by the deflection device 28 for the vertical deflection and the horizontal deflection, which in turn has the consequence that the

12th
Grid of the Z ent rast rallies with those of the side rays 14 and 16 on the screen matches. In terms of construction, the magnetic field generated by the electromagnetic deflection device for the vertical deflection is designed in such a way that it will be effective in the direction of the electron beams 12, lk and 16 aligned in a line, whereas the magnetic field for the horizontal deflection in a direction which is at right angles to the electron beams aligned in a line, is effective

The beam convergence device 28 is in the one previously described Constructed wisely, then the magnetic reluctance is at the smallest distance M between the respective highest points

4098Ί6 / 057Β

>> η / 25.9.1972

4/4 -glider to the clipping plates 38 and kO belonging to the smallest convex surfaces, on the condition that the magnetic field generated by the electromagnetic deflection device 28 acts for the vertical deflection in a direction transverse to the magnetic field shielding plates 38 and kO, whereby in turn, the magnetic flux density which crosses the path of the central ray 12 is increased in such a way that it has the strength of the magnetic flux density which crosses the side rays Ik and 16 and is thus equally strong. On the other hand, the magnetic field given up for the horizontal deflection between the two magnetic field shielding plates can pass between the magnetic field shielding plates 38 and ^ O in the event of a strong action at the point of the smallest distance M between the two shielding plates 38 and ^ O, which in turn leads to the central ray 12 is influenced in the same way as is the case with the side rays Ik and l6. As already described before, the influences from the magnetic fields generated by the electromagnetic deflection device 28 for the vertical deflection and for the horizontal deflection are almost unified and then transferred to the central beam 12 and the side beams Ik and l6, which makes it possible to determine the size of the for Central ray 12 belonging to the grid size of the grid of the two side rays Ik and l6 on the screen 10 to be adapted or brought into agreement.

3 shows another exemplary embodiment of the present invention. In this FIG. 3, parts and elements which are already known from FIG. 2 are also given the same reference numbers reproduced with omission of a description «This implementation of the subject matter of the invention includes the

409816 / 057S

f 25.9.1972

two magnetic field shielding plates 62 and 64 with their stepped and convex parts 58 and 60 aligned with the central ray 12. Those mentioned with FIG. 2 can be used achieve the same effects by making the distance M the smallest, in which case the distance M between the highest surfaces of the stepped parts of the shielding plates.

409816/0575

Claims (3)

PATENT LAWYERS F W. H EM M E R IC H ■ G E R D MÜL L E R ■ D. G R O SSE 22 271 «- bh - σ 25.9.1972 Tokyo Shibaura Electric Co. Ltd., Kawasaki / Japan Patent claims ι 1.' Color picture tube with an electron beam system built into the neck part of the tube and consisting of three electron guns arranged in a line, from each of which a central beam and two side beams are emitted and projected in such a way that the central beam is located in the middle between the two side beams; _{with a beam convergence device t} arranged along the path to be covered by the beams and having to converge each of the electron beams on the screen of the tube in a compensating manner; finally also with an electromagnetic deflection device with which the electron beams are deflected after passing the beam convergence device with regard to the screen in the vertical direction and in the horizontal direction. The color picture tube is characterized in that two convergence magnetic field generators are arranged on the outside of the neck part belonging to the tubular piston, while in the interior of the neck part belonging to the tube piston, two magnetic field shielding plates are inserted in this way are that they are in each case between the main ray and one of the side rays and thereby on each associated convergence magnetic field generator aligned are; for each magnetic field shielding plate one on the central beam aligned convex surface, the influences of the magnetic fields generated by the deflector for the vertical deflection and the horizontal deflection in view of the convergence magnetic field generators on the electron beams - namely on the central beam and on the side beams - by means of the two Magnetic field shielding plates are unified. 409816/0576 25.9.1972 2. color picture tube according to claim 1, characterized in that the two magnetic field shielding plates each one have a curved surface » 3. color picture tube according to claim 1, characterized in that the two magnetic field shielding plates each have a stepped and convex surface. - End - 0 9 8 16/0576 Blank page