DE2854731A1 - CATHODE FASTENING - Google Patents

Description

- 3 O.Brunn-P.Schmidt 19-19

Cathode mounting. "■»

The invention relates to a Wehnelt cathode according to the preamble of the first claim.

In such a Wehnelt cathode, it becomes the cathode holding insulating washer usually attached by beads in the Wehnelt cylinder. These beads are made by several Grains striking the Wehnelt cylinder from the outside are attached after the insulating washer in the Wehnelt cylinder was inserted. Another common type of fastening is that the insulating washer with an auxiliary cylinder is connected to the Wehnelt cylinder.

With these types of fastening, high mechanical loads occur the insulating washer on, which is why it was specified in DE-QM 19 22 619, the insulating washer resiliently with to connect the Wehnelt cylinder. The solution there suggests attaching the insulating washer to the angled pins of the Electron gun to press the retaining ring attached to the Wehnelt cylinder via a helical spring.

This type of fastening considerably reduces the mechanical stresses acting on the insulating washer and through the due to the spring guaranteed even pressure is a reproducible cathode temperature because of the same type of heat conduction properties between the Cathode holding insulating washer and the Wehnelt cylinder allows.

Such a fastening option is no longer possible with high-precision cathode structures, since the cathode with the Wehnelt cylinder must be connected before the assembly to the finished electron gun system takes place, which is at

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- 4 O.Brunn-P.Schmidt 19-19

Color picture tubes e.g. consists of three electron guns. This is necessary because the distance between the emitting surface and the Wehnelt cylinder base must be measured very precisely, and the measuring equipment is no longer used on the finished system can be.

There was thus the task of a resilient attachment of the Specify the insulating washer in the Wehnelt cylinder, which does not include the assembly of the electron gun system that has already taken place presupposes.

The solution to the problem can be found in the claims. Since the pressure spring through the second spring element on the Wehnelt cylinder is attached itself, the completed assembly of the system is no longer a prerequisite for the insulating washer to be able to attach resiliently. As a result, however, as described above, the cathode can be measured very finely.

A particular advantage of the invention is that the cathode can be exchanged very easily. It's just that Lugs of the spring element disengage from the holes in the Wehnelt cylinder, around the cathode together with the insulating washer to be able to switch. This means that the entire electron gun system is not lost with every cathode defect.

When using an integrated spring system, only a single component is required for fastening. The invention is explained in more detail below on the basis of exemplary embodiments. Show it:

Fig. 1: Wehnelt cylinder and cathode according to a known type of fastening

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O.Brunn-P, Schmidt 19-19

Pig. 2: Wehnelt cylinder and cathode according to the method of attachment according to the invention.

Pig. 3: Top view of a spring system according to the invention

Fig. 4: Perspective view of a further according to the invention Pedersystems.

In FIG. 1, 1 is the cathode and 2 is the insulating washer carrying it and 3 the Wehnelt cylinder with its bottom 4. The The insulating washer is held in the Wehnelt cylinder by beads 5. When attaching the beads, the insulating washer mechanically heavily stressed, which often leads to chipping leads. The tight fit of the insulating washer is not guaranteed, especially at the increased operating temperatures. because the metal of the Wehnelt cylinder expands more than the insulating washer. The heat transfer is due to the non-reproducible pressure of the insulating washer on the floor from the insulating washer to the Wehnelt cylinder and thus the cathode temperature is also not reproducible.

The embodiment according to FIG. 2 is an example for one according to the invention Construction. The spring system 6 is shown in Figure 3 in plan. On punched spring tongues 7 are Noses 8 attached, which engage in a latching manner in openings 9 punched out of the Wehnelt cylinder 3. The pressure of the The insulating washer on the bottom of the Wehnelt cylinder is over Pressure springs 10 accomplished.

Figure 4 shows an embodiment of the Pedersystem as it is in electron gun systems with three on one elongated Insulating washer is used in a row of cathodes attached next to one another. The names are the same as in Figure 2.

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285473]

- 6 O. Brurin-P. Schmidt 19-19

By pressing in the lugs 8, which are resilient because of the tongues 7, the spring element is fastened to the Wehnelt cylinder Easily detachable when the insulating washer and cathode are to be replaced. The contact pressure with which the insulating washer to be pressed against the bottom of the Wehnelt cylinder is due to the length of the pressure springs 10 and can be influenced by the material of the springs. If the spring system, as drawn in the exemplary embodiments, from is made in one piece, the material is usually Cr Ni or Invar, as it is also known for other grid parts Electron guns is used. If the pressure springs 10, the spring tongues 7 and the other parts individually are manufactured and are only assembled in a suitable manner to form the spring system, the resilient parts are preferably made made of spring-hard material and the non-resilient part made of particularly easy-to-pull material. It is then E.g. also possible, the pressure spring 10, which presses the insulating washer against the bottom of the Wehnelt cylinder 3, as Form spiral spring and this through 'the second spring element, whose spring tongues with their noses 8 in openings 9 attack the cylinder wall to fix.

The forces that act on the insulating washer should be uniform over the entire contact surface of the insulating washer be distributed. This is best achieved in the arrangements listed in the exemplary embodiment in that the Spring tongues 10 of the pressure spring at the same angle in each case, in the case of three springs, that is, 120 ° are offset from one another in relation to the longitudinal axis of the Wehnelt cylinder. To the from the spring tongues 7 of the second spring element on the Wehnelt cylinder wall To distribute the exerted forces evenly, it is also recommended to place these spring tongues under at the same mutual angles.

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Claims (7)

STANDARD ELECTRICS LORENZ
Aktiengesellschaft Stuttgart O.Brunn-P.Schmidt 19-19 Cathode attachment Expectations rVy Wehnelt cathode with a cathode arranged in a Wehnelt cylinder, in which the cathode is attached to an insulating disk and this is pressed against a support in the Wehnelt cylinder base by means of a pressure spring, characterized in that the pressure spring is part of a two-part spring system is, the second spring element has spring tongues (7) with lugs (8), which in openings (9) of the cylinder wall intervene and the position of the pressure spring and. thus the insulating washer (2) fix. 2) Wehnelt cathode according to claim 1,
characterized in that the pressure spring and the further spring element to one Workpiece-forming spring system (6) are integrated. 3) Wehnelt cathode according to claim 1 or 2, characterized in that 10/24/78 "" '- / - Dr. J / Sam. 030 0 28/00 3 9 ^ GiNAL inspected O.Brunn-P.Schmidt 19-19 the spring tongues (7) with the lugs (8) releasably into the Engage the openings (9) in the cylinder wall. 4) Wehneltkathode according to claim 1 or 2, characterized in that the compression spring ₃ the spring tongues (10) _s comprises pressing against the insulating disc (2). 5) Wehnelt cathode according to claim 1, characterized in that the pressure spring is a spiral spring. 6) Wehnelt cathode according to claim 4, characterized in that the pedal tongues (10) of the pressure spring and / or the pedal tongues (7) of the second spring element are offset by the same angle with respect to the longitudinal axis of the Wehnelt cylinder. 7) Wehnelt cathode according to claim 6, characterized in that the angle by which the spring tongues are offset from one another is 120 °. 030028/0039