DE2706420A1 - Colour TV CRT mfr. - uses electron gun held concentrically in bulb at angular position to screen - Google Patents

Abstract

The colour television cathode-ray tube is manufactured by holding its electron gun with a pumping lead at the foot of the tube. The electron gun is pushed into the opening in the neck of the tube and the foot of the tube fused to the end of the neck. The longitudinal axis of the electron gun and that of the tube bulb are coincident, while the electron gun is placed in a definite position relative to the screen. The bulb of the tube is held in a fixed position and the electron gun held in another position by a holding mechanism which grips the electrodes. The longitudinal axis of the electron gun and that of the tube bulb are coincident, while the electron gun is placed in a definite position relative to the screen. The bulb of the tube is held in a fixed position and the electron gun held in another position by a holding mechanism which grips the electrodes. The longitudinal axis of the electron gun and that of the bulb of the tube will be made to coincide at a particular angular position, and a second holding mechanism on the pump lead is used for further adjustments.

Description

"Method for producing a color image

Cathode ray tube The present invention relates to a method for making a color cathode ray tube one on one with one Pump stem provided with a tube foot mounted electron gun so inserted into the neck opening of the tubular piston and the tubular foot with the neck end is fused that the longitudinal axes of the electron gun and of the tubular bulb coincide and one through the longitudinal axis of the electron gun extending plane a defined position (angular position) to the four sides of the rectangular Occupies the screen of the tubular flask.

Color cathode ray tubes have three combined into one unit Electron beam generation systems, which are so arranged in the neck of the tube must that the longitudinal axis of the electron gun exactly to the Longitudinal axis of the tubular piston is aligned. It is common to do this adjustment that way make that one is on a precise attachment of the electron gun attaches importance to the tubular foot and holds the tubular foot with a device and in a given position into the tube neck and then the foot with the neck merges. Such and similar methods have the disadvantage that high accuracy requirements are required to the already assembled arrangement, consisting of the three electron beam generation systems and the tubular foot. In this respect, meeting these requirements is not always easy to suffice than the electron gun in which already on the foot assembled state are often exposed to transports and intermediate storage, whereby the exact adjustment set during assembly is changed by impacts and the like can be.

The present invention is based on the object of a novel Specify manufacturing method of the type mentioned above, which is a more precise meltdown the electron gun allows.

According to the invention it is proposed that the tubular piston in a defined position is held that the electron gun through a first holding device which acts directly on its electrodes in a such a position is supported that the longitudinal axes of the electron gun and the tubular piston coincide and the angular position is maintained that then a second holding device engaging the exhaust tube, the holding device of the electron beam generating arrangement in the previously adjusted position. takes and the first holding device releases the electron gun, that then the second mounting device in the direction of the longitudinal axis of the electron gun moved towards the tube and thus the electron gun in the Tubular neck is inserted and that then the tubular foot is fused with the neck end will.

The method described largely ensures that the electron gun in the desired position in the tube neck of the tubular piston is inserted and secured. This will bring further benefits achieved that the accuracy requirements for the structure of the electron gun on the tubular foot can be reduced considerably and thus the treatment of this Assembly unit to be melted into the tube neck less carefully got to. Overall, this not only results in cheaper assembly, rather, it improves both the quality of the color picture tube and the production failure rate is reduced.

On the basis of the preferred embodiment shown in FIGS the invention is explained in more detail below.

Figs. 1 to 3 show different stages of the manufacturing process, while FIG. 4 shows, on an enlarged scale, the structure of an electron gun shows with three electron gun, in which the three systems in one Level are arranged side by side. In the figures are only those for Explanation of the invention designated parts required and shown in principle.

The tube piston 3 of a color cathode ray tube with a rectangular The luminescent screen is held in a precisely defined position in a device 8, so that the longitudinal axis 9 assumes a very specific position. The body part, consisting of from the electrode generation arrangement 5 and the tube foot 6 with the exhaust tube 7 are now at some distance in front of the opening of the tube neck 4 from a first Holding device 1 supported, this device 1 directly on electrodes the electron generation anosinization 5 attacks. The bracket is done so that the The longitudinal axis of the electron beam generating arrangement 5 exactly on the longitudinal axis 9 is assumed in the desired manner that it can be seen from the figures that in the illustrated embodiment is now exposed in an exaggerated manner that the electron beam generating arrangement 5 is mounted obliquely on the tube foot 6, so that the exhaust tube 7 also runs obliquely to the longitudinal axis 9.

As the next step, a second mounting device 2 operated, which has such a function that it changes the position of the exhaust tube 7 senses, adjusts to it and now takes over the mounting of the superstructure arrangement, in which it holds the exhaust tube 7 in the position that it holds as a result of the holder has taken by the mounting device 1. Now after the mounting device 2 holds the exhaust tube and thus also the electron beam generating arrangement 5, the holding device 1 is released, as can be seen from FIG.

In a further process step, the holding device is now 2 moved parallel to the axis 9 and without twisting in direction of the tube neck 4, so that the electron gun 5 is pushed into the neck, in fact until the required insertion depth is reached and the tube foot 6 comes to rest in the area of the opening of the tube neck 4. In this The tube neck 6 is then positioned by fusing or soldering to the tube neck firmly connected. The holding device 2 can then be released. Through this The procedure ensures that the electron gun is precisely aligned 5 takes place with respect to the axis 9 and also with respect to the rotational position, and indeed largely independent of the extent to which the electron guns A, B, C (Fig. 4) are attached exactly to the tube foot 6. The attachment of the the three electron gun systems A, B, C existing electron gun 5 on the tubular foot 6 takes place in a generally customary manner by attachment to the Feed-through pins 8 of the tubular foot 6. FIG. 4 shows how the first fastening device 1 expediently on electrodes of the two outer electron guns A and C attacks. Accurate retention is expediently achieved in that the Holding device 1 has prismatic pliers, creating a defined position rotationally symmetrical electrodes is guaranteed.

Claims (2)

P a t e n t a n s p r ü c h e 1;) Method for producing a Color cathode ray tube one on an exhaust tube provided Electron gun assembly mounted in the tube foot into the opening of the tube The tubular piston is pushed in and the tubular foot is fused to the end of the neck, that the longitudinal axes of the electron gun and the tube bulb coincide and one through the longitudinal axis of the electron gun extending plane a defined position (angular position) to the four sides of the rectangular Occupies the screen of the tubular bulb, characterized in that the tubular bulb is held in a defined position that the electron gun by a first holding device in such a position is supported that the longitudinal axes of the electron gun and the tubular piston coincide and the angular position is maintained that then a second holding device engaging the exhaust tube, the holding device of the Electron beam generating arrangement takes over in the previously adjusted position and the first holding device releases the electron gun that then the second holding device in the direction of the longitudinal axis of the electron gun moved towards the tube and thus the electron gun in the Tubular neck is inserted and that then the tubular foot is fused with the neck end will, 2. The method according to claim 1, characterized in that the electron gun consists of three electron beam generating systems lying in one plane and the first holding device on electrodes of the two outer electron guns attacks.