DE1169594B - Electron beam generation system for cathode ray tubes - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY GERMAN #tft PATENT OFFICE

EDITORIAL

Boarding school Kl .: HOIj

Number:
File number:
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German class: 21 g -13/21

P 21547 VIII c / 21g
17th October 1958
May 6, 1964

The invention relates to an electron gun for cathode ray tubes, e.g. B. television tubes, in which a rod-shaped, with its longitudinal axis perpendicular to A cathode running in the direction of the beam and a box-like control electrode surrounding the cathode in holes of two insulating plates arranged parallel to one another at opposite ends are set, and with a screen grid electrode.

In the known cathode ray tubes, the electrodes of the beam generating system are generally tubular and at a distance from one another concentrically with respect to a common Axis arranged. To simplify assembly, it is known that the cathode, control electrode and screen grid electrode are used to be combined into a single unit.

It is also known for electrical discharge vessels to have a cathode and anode between two insulating washers to hold, with the purpose of establishing a precisely defined distance for the on the electrodes arranged flap slots are provided, which a definition of the flap in different Allow relative positions of the anode with respect to the cathode. This makes it possible to use electrode systems high accuracy.

For the purpose of reducing the power requirement by reducing the heat radiation losses of the Cathode and to shorten the overall length of the beam generating system has already been proposed has been, on a screen grid electrode serving as a construction base, insulating platelets parallel to the beam axis and to be fixed parallel to each other and a rod-shaped one with its longitudinal axis perpendicular cathode extending to the direction of the beam and a box-like control electrode surrounding it to hold between the insulating plates.

An improvement in terms of the alignment and assembly of the electrodes is achieved, if according to the invention on the two opposite side surfaces of the control electrode each one electrically conductive carrier isolated from the control electrode and cathode is held in the insulating plates and when the screen grid electrode is attached to the supports.

This makes it possible, in the simplest possible way, to achieve an axial alignment or adjustment between to carry out the electrode arrangement and the screen grid electrode defined in the insulating plates, which was not possible with the proposed device because the screen grid electrode is there was fixed even on the mica plates.

Electron gun
for cathode ray tubes

Applicant:

Philco Corporation,

a society under the laws of the state

Delaware, Philadelphia, Pa. (V. St. A.)

Representative:

Dipl.-Ing. C. Wallach, patent attorney,

Munich 2, Kaufingerstr. 8th

Named as inventor:

Gordon Reed Spencer, Lansdale, Pa. (V. St. A.)

Claimed priority:

V. St. v. America October 18, 1957

(691 026)

The alignment of the parts is facilitated by the fact that the electrically conductive carrier is freely on the surface of the second grid can slide before they are finally set. Through this Adjustment option during assembly is achieved that the final setting no longer depends on the Accuracy of the dimensions of the individual components is dependent, because it is only necessary to Cathode-to-grid spacing and the axial distance between the grid and the plane of the upper wing the conductive support to specify exactly what can be done easily.

According to an expedient embodiment, the screen grid electrode rests on a spacer plate, the with the upper flanges of the two electrically conductive supports, which are C-shaped in cross section is welded. This spacer plate has the task of creating an electrically conductive connection the screen grid, and also the distance between the box-shaped Control grid and the screen grid determined, whereby the steepness of the Tube can be adjusted.

409 588/314

3 4

For the purpose of axial alignment of the jet openings to increase dimensional stiffness. Moreover, it is desires grounding the control electrode or the screen grid electrode, for preventing the displacement of the are control electrode and screen grid electrode with a grid arrangement, the retaining tabs equipped 25 and 25 α flat alignment holes, the axes of the sides parallel to the form and at a distance, as shown in Fig. 3 illustrates beam direction run the cathode and placed 5 to be arranged because the knife-like edges can cut into the mica carrier during assembly to guide alignment rods of the tabs. These alignment rods can be slightly conical. The box-like design of the control grid can be designed so that slight deviations in the flap parts are usually compensated for in this desired orientation of the diameter of the alignment holes.

can. After z. B. by spot welding io The side rails 17 limit the control grid a structural unit with high dimensional stiffness created 16, but from which they are electrically isolated. These the alignment rods can be removed again, parts can be made from electrically conductive material, placed and carried by the mica parts 14, similar to other advantages and details of the described for the control grid 16, carried. Danes Device emerge from the description 15 by the fact that simply certain retaining tabs 28 umvon Embodiments on the basis of the drawing. bent and kinked to prevent pulling away In the drawing shows to prevent the mica support plate 14, F i g serve. 1 is a broken view of the neck part, these parts for defining the arrangement in shape a cathode ray tube, an assembled one-piece unit. Figure 2 is then an exploded perspective view of side rails, e.g. part of the beam generation system, weld, connected to the screen grid 11, which the mutual position of the individual parts after they are on the electron beam openings illustrative, aligned by means described below F i g. 3 is a perspective view of the finished ones.

Composed electrode arrangement, 25 The spacer plate 27 facilitates the connection

4 is an exploded perspective view of the cathode control grid arrangement with the screen representation of the electrode system with auxiliary device grid electrode and provides precise, simple means for assembly, changing the distance between the shielding

F i g. Figure 5 is a perspective view of a cathode and control grid and, at the same time, a suitable Verden grid arrangement with additional stiffening 30 move forward to change the tube steepness. average. This plate is expediently designed so that

Fig. 1 shows the beam system 9 of a cathode - it bridges the accessory device in such a way that Radiation tube with a high-voltage anode 10, one that the screen grid 11 on which the plate is attached to the screen grid 11 and the cathode control grid assembly is arranged from the upper flanges 29 of the Order 12. The high voltage electrodes 10 and 11 35 side rails 17 at a distance from the control grid 16 are hung on the glass parts 13 in a known manner. The axial distance brought between them. these parts is determined exactly by the thickness of the spacing

To illustrate the device in plate 27 is intended.

F i g. 2 shown exploded and shows to- The next step in the manufacture of the

together with FIG. 3 the relative position and the electrode arrangement lies in the interaction of the electrons of the individual parts of the facility. Beam openings 23 of the screen grid 11 and control

The device has mica plates 14 to align the grid 16 exactly axially. Both parts are at a distance from and parallel to each other are equipped with alignment holes 30, which are in their and with appropriately arranged openings a tube-opposite surface is impressed, shaped cathode 15, a box-like control grid 16 45 These holes are preferably in the same area and U-shaped side rails 17 carry. Manufactured for countersinking, which is used for the Construction of the cathode is to create the tubular sleeve in the electron beam openings. The box areas 18 and 19 provided with projections. like grid arrangement 16 additionally has two These projections 18 and 19 serve to form holes 31 on (Fig. 5) which in the lower upper one Limiting stop when inserting the 50 surface 32 are depressed to introduce the Cathode into support opening 20. The cathode is placed in alignment tips 33 in the box-like device this aligned position is maintained by making it easier to go into and through it. A subsequent An electrically preferred method of assembly is spot welding Band 21 on that part 22 of the cathode tube, first of all the accessories 12 on the alignment tips sleeve is attached, which extends over the surface of the 55 33 in the in F i g. 4 and then that Mica plate 14 extends addition. When you are finished, thread the screen grid 11 in the same way. Nachlung once the cathode is free between the mica demisters, the alignment tips 33 are flattened into their position 14 are placed in a plane transverse to the axis of the electron beam, the electron beam openings Electron beam of the cathode ray tube extended. 23 automatically aligned. With the so aligned-The Cathode 15 is behind the grid opening 23 with 60 th parts, the spacer plate 27 is on the Flander Electron-emitting surface 24 of the see 29 is spot-welded, and it thus becomes a cathode aligned in opposition. The composite electrode unit is formed. Before the box-like control grid 16 surrounds the cathode. Alignment of the control grid 16 can be the screen-This Part is at a precise distance from the opposite grid 11 together with the high-voltage anode 10 be supported above the cathode by inserting the grid holding 65 on the insulating glass parts 13. That tabs 25 into their respective engagement openings 26 cathode grid accessories are subsequently attached to this held in the insulating support parts 14. This connection high-voltage electrode device in the pre-order is advantageously box-shaped, hung in the manner described.

The alignment tips 33 should be thick enough to resist damage during assembly to ensure accurate alignment. This requirement determines the diameter the alignment holes, and it is often necessary to compare one with the diameter of the electron beam aperture to choose a large hole size. Under certain conditions, the Tube a stream of electrons will occur through these holes, resulting in poor image sharpness leads and in particularly unfavorable cases to the generally known double image in television leads. To prevent these phenomena, perforated screens 34 can be used for alignment, which are shown in their general configuration in FIG are. These screens rest on the inner surface 35 of the side walls of the control grid and effectively isolate the alignment holes 30 and the access holes 31 from the electron flow however, at the same time, the holes are used for alignment purposes. This shield can of course be accomplished in various ways, e.g. B. in that the alignment holes become clogged after compilation.

It has been found to be useful in certain applications, both from the standpoint of Dimensional stiffness as well as from the point of view of simplicity the electrical leads to the To produce the electrode arrangement by means of a reinforcement strip 35 (FIG. 5), which from below is printed against the surface of the assembly 12. The strip is on the side rails 17 Applied by spot welding and is kept at a distance from the control grid 16. The top standing terminal connections 36 form expedient means for the electrical connection of the screen grid 11 to the connecting pins 13 a, in the manner as clearly shown in FIG.

Claims (3)

Patent claims: 1. Electron gun for cathode ray tubes, in which a rod-shaped formed, with its longitudinal axis running perpendicular to the beam direction cathode and a box-like control electrode surrounding the cathode in two holes parallel to one another arranged insulating plates are fixed at opposite ends, and with a Screen grid electrode, characterized in that on the two opposite Side surfaces of the control electrode (16) each have an electrically conductive support (17) insulated from the Control electrode (16) and the cathode (15) is held in the insulating plates (14) and that the Screen grid electrode (11) is attached to the supports (17). 2. electron gun according to claim 1, characterized in that between the screen grid electrode (11) and the carriers (17) a spacer plate (27) is provided which welded to the upper flanges of the two carriers (17), which are C-shaped in cross-section is. 3. electron gun according to claim 1 or 2, characterized in that the Control electrode (16) and the screen grid electrode (11) for the purpose of axial alignment of the beam passage openings (23) is provided with adjustment holes (30), the axes of which are parallel to the beam direction run and serve to guide alignment rods (33). Considered publications:
German patent specification No. 889 954. Legacy Patents Considered:
German Patent No. 1100 184. 1 sheet of drawings 409 588/314 4.64 © Bundesdruckerei Berlin