DE941917C - Process for the production of grids of large dimensions, in particular for color television tubes, and grids produced by this process - Google Patents

Description

ISSUED APRIL 19, 1956

C 9842 VIII aj 21 a ¹

manufactured lattice

The invention relates to a method for the production of grids of large dimensions, the for cathode ray tubes, in particular for color television, the grids of several consist of parallel wires stretched on a frame.

Such grids, which are placed in front of a screen that alternates with different Colors of luminous phosphor cells are known per se, z. B. from "Teletech" from November 1951, p. 38 fr.

It is very important that the wires of such grids remain exactly parallel and that a tensile stress is certain Have height, even after the grids, e.g. B. during the degassing of the tube to high Temperature.

As in RCA Review, September 1951, at 597 and 598, the grid wires are therefore already on a frame with a smaller size Coils of expansion wound up, so that the grid wires are then less tense when heated and have the original tension again after cooling. In this case it is but it is necessary that the grid wires are wound with the required high tensile stress, what is associated with difficulty.

These difficulties can be avoided in one Process for the production of * grids'with large dimensions, which are used for cathode ray tubes, in particular are intended for color television, the grids of several stretched on a frame parallel wires exist if / according to the invention of cold drawn, not annealed Wire is assumed to be of low tensile stress aui the frame is attached. if

ίο the grid wire then after connecting to the row screen was assembled to a whole, until it is heated to a certain temperature, so that a Compensating for the internal stresses occurring in the wire material, the result is that the wire is shorter and consequently the tension of the grid wires increases. By suitable choice of wire material and the tensile stress in the manufacture of the grating can be achieved after that heating and cooling the grids, the wires

ao have the required high tensile stress. The heating can be done before the grids are in a Cathode ray tubes can be installed, but preferably after being installed in such a tube Tube during degassing. In the former case, the tensile stress of the wires after heating be checked, but care must then be taken to ensure that this tensile stress does not disappear afterwards when the tube is degassed. The higher the temperature during the heating, the shorter the heating time can be.

The amount of relaxation that occurs for a given cold drawn wire at the degassing temperature depends on the pretreatment of the Wire dependent. With a suitable choice of the expansion coefficient of the frame and wire, the length of time and degree of heating and the initial tension during the Making the grids can be the final tensile

4-0 tension in the wires can be determined.

The invention is explained in more detail using an exemplary embodiment.

A grid consisting of rustproof, cold-drawn and not annealed steel wire is wound with a tension of 171 g. After heating to 390 ^° C. and cooling, there is an increase in tensile stress up to 771 g

The annealing temperature for the following materials must be at least: for iron, stainless steel and carbon steel: 538 ° C, for nickel-copper alloy (50 Ni, 5 p Cu): 372 ⁰ C, for nickel-copper alloy (30 Ni, 70 Cu ): 260 ° C, for tungsten: 982 ⁰ C, for molybdenum: 872 ⁰ C, for a nickel-chromium alloy known as nichrome and used for heating conductors: 649 ⁰ C.

As mentioned above, the heating temperature depends on ^{the pretreatment 1 deis DraJitmetoliles.} Above the temperatures given for the various materials, recrystallization and consequent shortening of the wire occurs.

The invention is explained in more detail with reference to the accompanying drawing, in which a cathode ray tube for color television with a grid - _{: is shown} according to the invention.

The tube contains an electron gun from which an electron beam 12 emerges, which by means of schematically shown solenoids can be moved back and forth and up and down. The beam meets a screen 20, which consists of phosphor lines alternating in different colors exists when hit by the beam. The screen 20 is attached to a glass plate 18. In front of the screen 20, parallel to the color lines, are grids with wires 14, 22, which alternately correspond to a different grid, are mutually parallel in only one plane, attached to metal frames 30 and 28 and tensioned by insulating rods 24, 26.

The wires 22 are at a distance in front of the screen 20, as they over the mentioned Bars 24 and 26 run. The bars are grooved so that the wires do not move can.

The winding of the wires on the frames 28 and 30 is done with low tension, so that the Frame can be relatively light and not deform during winding. After this the frame with the glass plate 18 and the screen 20 are combined to form a structure and the Wires by means of the insulating members 24 and 26 have already received a certain preload the heating of the grids is done so that the wires after cooling the desired high Tensile stress, whereupon the structure consisting of the glass plate and the grids in the tube can be mounted. Preferably, however, the structure is built into the tube before heating, wherein the desired heating occurs during the degassing, so that the grids after cooling have the desired tensile stress.

While a particular embodiment has been given, the invention is in all such Cases of importance in which larger grids are wound with particularly rigidly tensioned wires have to.

Claims (4)

PATENT CLAIMS: 1. Process for the production of large-sized gratings for cathode ray tubes, are intended in particular for color television, the grids each consisting of several consist of parallel wires stretched on a frame, characterized in that cold Drawn, not annealed wire attached to the frame with a low tension will. 2. The method according to claim 1, characterized in that that at least the wires of the grids are heated to such a high temperature for a certain period of time, that a compensation of the internal tensions in the material of the wires and consequently a shortening the wire length occurs, such that the Grid wires have the desired high tensile stress after cooling. 3. The method according to claims 1 and 2, characterized in that the heating of the Grid wires after installation in a cathode ray tube during the degassing of this Tube takes place. 4. Large size grating obtained according to the method of claim 1 or 2 is made. 1 sheet of drawings © 509 690 4.