CS202174A2 - High-speed heated cathode for cathode-ray tubes especially for television cathode-ray tubes - Google Patents

Description

2

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rapidly heated cathode-ray tube, particularly for television screens assembled from a cathode-ray tube attached to an insulating support disc, one end of which is provided with an emissive cap, and a glow plug coated with an insulating layer is inserted into the second open end. longer the surface cathode tube is well thermally radiating, for example blackened, and the glow member is centered close to the closed end of the cathode tube, i.e. near the emission surface. the paint cathode system is known and common in today's screens. The cathode structure, which is composed of a cathode-ray tube mounted on an insulating carrier disc, one of which is provided with a cap which carries the emission layer, and into which the second open chamber is fitted with an insulating layer, is shown and described in Fig. 4, p. 676 of Kie Tischer's article: "Die Oxydkathode · in der Bildrohre undihre Problem", in the "Funkschsu" magazine 39 Jg. (1976) Workbook 21, p. 675 · 677, as an omnidirectional cathode, such a cathode radiates the surface of the cathode tube well heat, for example, is incorporated, and the glow member is centered near the closed end of the cathode tube, that is, near the emission surface as it is also described in the French Pat. according to DE-OS 1 56 464. For example, a thick black layer is applied to the outside of the cathode tube to replace the cathode superheat to improve the cathode's ability to radiate heat.

In addition, the inside of the support roll is also provided with a black layer so that it can better receive heat radiation from the cathode. Such layers are difficult to apply on the one hand, and on the other hand, for longer periods of time, they have to be removed. In addition, they increase the weight of the cathodes and thus the heat-up time again. SUMMARY OF THE INVENTION It is now an object of the present invention to provide additional cathode design measures for further shortening the cathode heating time to achieve operational readiness of the screen even faster. This is achieved according to the invention by co-operation of the aforementioned known cathode members with the total of the following features which are known per se: 1) The length of the cathode tube to the length of the active part of the glow member is at least 2: 1. the member is covered with an insulating layer colored uniformly in the dark and emitting dark radiation. 3) The surface of the inner side of the cathode tube is at least in the region of the inserted heating element non-reflective for heat. The first aspect of the characterizing part is referred to in DB-PS 791 091, FIG. 3 shows a cathode tube divided into two parts. The surveillance portion adjacent to the emission surface is a retractable member whose length is less than half the entire cathode tube. The lower portion of the cathode-ray tube is protected from radiation emanating from the heating element by a ceramic insert, wherein the thermal resistance of the invar can be adjusted between the two parts. The material used for the cathode-ray tube is tannal or zirconium, and the construction described here serves to keep the upper part temperature-friendly and the lower part to be suitable for gas absorption.

For the second feature, the features refer to U.S. Pat. No. 3,195,004, in part corresponding to DB-AS 1,141,336 and the part of which is incorporated herein by reference. No. 1,296,399, which relates to insulating coatings for glow wire glowers, which coatings emit black radiation. U.S. Pat. spi-su are given two different embodiments. In one instance, tungsten particles and the senanese / admixture are admixed to the aluminum oxides constituting the insulating material as the sole insulating layer. To this end, it is explained that these coatings can be used if low isolation resistances are allowed and thus leakage currents between the heating filament and the cathode. According to a second embodiment which eliminates these disadvantages, a white layer of pure aluminum oxide and a precisely dark colored layer should first be applied to the heating wire. • To the third character of the character part, refer to HS-AS No. 1,147,325, which corresponds to the ASAP. No. 3,622,211, a well absorbing layer of heat, such as chromium, iron, and nickel alloys, or aluminum, chromium, is to be deposited on the inside of the tubular cathode, the outer side of which has an emission layer. carbon. In this case, the heating element is coated with a layered insulation layer according to U.S. Pat. No. 3,195,004 ·

If all of these known features are used simultaneously with the barley catocyte, the result is not the sum of the properties known by the individual characters, but these features have a mutual dependency, and therefore, to obtain the optimum results, when changing one parameter, also the X values of the second parameters need to be changed.

Another essential advantage of the cathode of the invention is that it can be practically made by the same tools and devices used for the cathodes previously used and described above. Significant financial support.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be explained in more detail with reference to the drawings.

FIG. 1 shows a known structurally heated cathode.

FIG. 2 illustrates the inventive structure of the invention.

FIG. 3 is a diagram for explaining the temperature profile of the cathodes of FIGS. 1 and 2.

The cathode shown in Figure 1 consists of a cathode tube 1 at one end of which a nickel cap 2 is cooked, which is a known method.

I especially subsidized. The front side of the cap 2 is covered by its own emission layer, 3> emitting electrons. Inside the cathode tube 1 there is a glow member 4 which fills approximately the entire length of the cathode tube L ·

The entire arrangement, i.e. the cathode tube 1 with the cap 2 and the glow member 4, is mounted on the disc 5 by means of a holder 5 which is known in various embodiments and may be one-piece or multi-part.

When, with such an annu- nate construction, the temperature curve depends on the length of the cathode tube, a temperature distribution corresponding to the curve K1 in FIG. 3 is obtained.

Obviously, the maximum temperature of the oscillated state, i.e., in the stationary cathode operation, is not on the emission layer, but the cathode tube 1 is much more heavily heated at locations other than that required to achieve optimal emission at emission layer 2 *

It can also be seen that, in the case of such a spatially distributed temperature, even with an analogous observation of the time course of the temperature, the toemisation surface is not the one which first reaches its operating value. The embodiment of the cathode of FIG. with the cap 2 and the emissive layer 3. In the cathode-ray tube 1, the firing member 4, whose effective length is equal to L, is about half the size of the cathode tube (FIG. 3). Thereby, the imaginary center of gravity of the heat source, i.e. the heating element 4, is very close to the emission layer. In addition, since the glow member 4 is covered with a dark insulating layer and the cathode tube 1 is formed non-reflective inside at least in the region of the glow member 4, heat is transferred well to the emission layer.

In conjunction with the corresponding dark color and / or roughening of the outer surface of the cathode tube 1, it is achieved that the final temperature, i.e. the working temperature of the emission layer 3, does not exceed the desired value.

The measure according to the invention, in its entirety and interdependence, is such that the temperature distribution is in accordance with the curve K2 of FIG. 23 " The heating element 4 according to the invention does not require a higher heating power than the prior art element of FIG. The emission layer is reached after only 1 - 9 - several seconds. As shown in curve K2 in FIG. 3, there is also no excess temperature, such as in curve K1.

Claims (1)

1. A rapidly heated cathode for screens, in particular for television screens which are assembled from a cathode-ray tube mounted on an isolating support disc, one end of which is a sealed cap carrying an emission layer, and whose other a heater member, covered with an insulating layer, is inserted in the open end, and in which the surface of the cathode tube is well thermally radiating, for example blackened, and the heater member is centered near the closed end of the cathode tube, i.e. in the vicinity of the surface, characterized in that the ratio of the length of the cathode tube (1) to the length of the active part of the heating element (4) is at least 2: 1, the heating wire of the glow plug (4) is covered with an insulating layer colored in darkness and emitting dark radiation, and the surface of the inner side of the cathode tube (1) is non-reflective for heat at least in the region of the glow member (4). kastu upu 9 o7 6 / -> uLr.letržílka