DE1537079B1 - Device for suppressing the microphonics in a super orthicon tube - Google Patents

Description

solved that the platform compared to the storage electrode arrangement It is difficult that the elastic elements consist of leaf springs and that these Leaf springs are attached in such a way that as a relative movement between the platform and the stationary support essentially only a movement in the axial direction is possible.

This configuration prevents vibrations of the storage electrode arrangement in the lateral direction.

the platform damping means is provided.

The platform is preferably annular and the leaf springs are equally spaced

The invention relates to a device for suppressing microphony in a super orthicon tube with a storage electrode arrangement, the
is mounted on a platform which is fastened via elastic elements to a stationary support connected to the tube, in particular the cup electrode, in axial alignment.

A disturbance is called microphony that
by vibrations of the storage electrode memory consisting of glass or a similar material as well as torsional vibrations practically completely undermined compared to the storage network and / or both. The required movement of the storage elements relative to the carrier - usually the platform carrying the electrode arrangement in the direction of an outer ring - is caused and moved into the stationary carrier and back is made possible by the images created by the deformation of the leaf springs derived from the tube. Furthermore, image signals can be reproduced by means of light and 15, a simple and precise assembly is possible, since shadow strips, which run in the direction of the lines and after one end of the leaf springs are attached, move up or down in the image direction, for example on the stationary support again . These vibrations can be obtained via an unstable arrangement, to which the correct time periods then last and can be attached by a mechanical platform without causing niche vibrations or any risk of the leaf springs slipping out of place. consists.

To suppress the microphony in super- According to an advantageous embodiment of the

Orthicon tubes, it is already known, for the invention, the storage electrode arrangement is directly adhering to the distance between the glass membrane and rigidly connected to the platform, and spacers are used to use dampening materials according to a further advantageous embodiment. It is also known that these are to be arranged between the storage electrode arrangement and spacer so that they vibrate
of the glass membrane relative to the storage network.
These tools lead to an improvement,

are however, especially in the case of super-orthi- 3 ° from one another, distributed around this annular platform konröhren with relatively large storage elec- tric and extend radially between the platform and electrode arrangements, not really satisfactory. fixed carrier.

It is also known that the storage electrode in a further advantageous embodiment

Super orthicon tubes at least three evenly of the invention are between the platform and the support around the circumference by means of coil springs, in addition to the leaf springs, vibration damping springs to hang up elastically. The funds thereby achieved are provided.

Vibration damping is not optimal, however, and these vibration damping means exist

In addition, this type of holder also requires metal parts arranged in a loop Very helical springs have a relatively large amount of space. fabric tapes or soft metal strips and the like,

There is also already a vibration damping 40 which extend between the platform and the carrier Fende bracket proposed that are attached for attachment and on both.

a storage electrode array in a super. The invention is based on the Orthicon tube with a stationary electrode, the drawing described in more detail, an inwardly drawn, perpendicular to the tube- In this, Figs. 1, 2 and 3 show known

has a longitudinal axis, 45 storage electrode arrangements are determined for super-orthicon- and is characterized by the fact that the frame of the tubes and are for explanatory purposes only, while Storage electrode arrangement an outwardly designed embodiment of the inventive device, 4 to 11 are shown in a position perpendicular to the longitudinal axis of the tube. In all has the flange and that at least three figures are identical parts with the same reference braids Metal fiber parts provided between the flange of the 50 characters.

stationary electrode and the flange in the same Fig. 1 shows a plan view of erne typical loading

Storage electrode arrangement known at intervals along the circumference of the flange, FIG are ordered. The main disadvantages of this an exploded view perpendicular to Fig. 1, the Arrangement consists in that relative movements between the individual parts of the arrangement according to FIG of the storage electrode arrangement and of 55, and FIG. 3 shows the arrangement after Fixed electrodes possible in all directions F i g. 1 in a known manner on a memory link and considerable difficulties during the assembly of the trode cup, from which it is supported, assembled, occur because due to the use of metal Die in F i g. 1 to 3 illustrated storage fiber parts A flawless and accurate mutual electrode arrangement consists of a network 1 Arrangement of stationary electrode and storage 60 copper or other conductive material that electrode arrangement is not possible. by metal or insulated spacers 3 from

The object of the invention is to provide a device for the membrane 2 made of glass or some other suitable type of material with high specific resistance that is to be formed in such a way that it is kept at a distance while permitting a simple one. Each of the parts 1 and 2 but exact assembly as effective as possible 65 is attached to an enclosing mounting ring 1 A or vibration damping between storage electrodes 2 A as shown and the spacer 3 arrangement and fixed support ensured. are attached between these rings to

According to the invention, this object is to maintain the necessary distance. Parts 1, 2

and 3 are held by a carrier ring 4 with tabs 4 A, which are bent over the ring 2 A carrying the membrane 2, as best shown in FIG. 3 can be seen. The arrangement of the assembled parts 1, 2, 3 and 4 is mounted on the electrode 5 known as the storage electrode cup. This assembly is usually done by rigid means such as the screws SA shown in Fig. 3, although dampening intermediate layers are sometimes placed between the arrangement and storage electrode can to achieve a semi-rigid mounting of the storage electrode arrangement on the can and to prevent relative movement between the two.

FIGS. 4 to 11 show two embodiments of the invention. The F i g. 4 and 5 are mutually perpendicular views of an inertial platform ring 6 on which the storage electrode assembly is mounted, and FIGS. 6 and 7 are mutually perpendicular views of one of four leaf springs with which the ring 6 is held by the storage electrode can. In a practical w case, each of the springs can consist of spring strips 12.5 mm long, 2.5 mm wide and 0.25 mm thick, which are shown in FIG. be bent, made. The springs are welded at their outer end to the outer part of a surface of the platform ring 6 and are arranged offset by 90 ° on the circumference. They protrude radially inward from the platform ring and are curved upward away from it, as best shown in FIG. 9 can be seen. This shows a top view of the platform ring with the surface on which the springs are attached. The platform ring is heavy compared to the storage electrode arrangement and consists, for example, of a nickel-chromium alloy.

On the side of the platform ring opposite the springs 7, the actual storage electrode arrangement is screwed to it, which is shown in FIG. 8 like the arrangement according to FIGS. 1, 2 and 3. The inner ends of the springs 7 are welded to the storage electrode can 5, so that the inertia ring 6 with the platform) mounted thereon storage electrode assembly is supported by the storage electrode can by means of the springs. 7 As can be seen, the spring arrangement allows movements of the platform ring 6 with the storage electrode arrangement mounted thereon directly to and from the storage electrode cup, ie movements in the axial direction, but no relative movements in other directions, ie tangentially. According to FIG. 8, the actual storage electrode arrangement is mounted directly on the platform ring 6 by means of bolts, so that the assembly of the former with the latter is rigid. If desired, however, damping (not shown) can be provided between said arrangement and the platform in order to create a semi-rigid connection. 10 and 11 show, similar to FIGS. 8 and 9, a modification in which damping is provided between the inertial platform ring 6 and the storage electrode cup 5. The damping is formed by vibration damping elements 8, each of which is arranged on the circumference between two springs 7 and is fastened with its ends to the storage electrode cup and to the platform ring. The damping elements can have various shapes, for example loop-like lengths of soft metal strips. In Figures 10 and 11, however, they are shown as looped lengths of stainless steel cloth. They serve to absorb relative vibrations between the platform ring 6 and the storage electrode cup 5. To simplify FIG. 10, the actual storage electrode arrangement is not shown, but only the platform to which it is attached. However, it can be attached either rigidly or semi-rigidly to the platform ring 6 mentioned, as already described in connection with FIG. 9 described.

Claims (6)

Patent claims: 1. Device for the suppression of microphones in a super-orthicon tube with a Storage electrode arrangement, which is mounted on a platform, which has elastic elements on a stationary support connected to the tube, in particular the cup electrode, is attached in axial alignment, characterized in that the platform (6) in the Compared to the storage electrode arrangement (1, 2, 3, 4) is difficult that the elastic elements There are leaf springs (7) and that these leaf springs (7) are attached in such a way that as a relative movement between the platform (6) and the stationary support (5) essentially only one movement in Axial direction is possible. 2. Device according to claim 1, characterized in that the storage electrode arrangement (1, 2, 3, 4) is directly and rigidly connected to the platform (6). 3. Device according to claim 1, characterized in that between the storage electrode arrangement (1, 2, 3, 4) and the platform (6) damping means are provided. 4. Device according to claim 1, characterized in that the platform (6) is annular is formed and that the leaf springs (7) equidistant from one another around the annular Platform are distributed and extend radially between the platform and the stationary support (5). 5. Device according to claim 4, characterized in that between the platform (6) and Carrier (5) are provided in addition to the leaf springs (7) vibration damping means (8). 6. Device according to claim 5, characterized in that the vibration damping means (8) made of metal fabric strips or soft metal strips arranged in a loop and the like exist, which extend between platform (6) and carrier (5) and are attached to both are. For this purpose 2 sheets of drawings