DE2652277C2 - - Google Patents

Description

The present invention relates to a cathode ray tube after the Preamble of claim 1.

Such is a cathode ray tube known from DE-OS 25 42 545. The insulating part is with this Tubes like this directly on the getter partially attached that the getter part by means of the insulating part the inner resistance layer supports. The insulating part increases the weight of the getter part considerable.

The present invention lies based on the task a Katho to indicate the jet tube of the type mentioned at the outset a improved protection against high arcing between the springy metal temple and the resistance covering guaranteed, as well as the Vibration tendency of the getters device reduced.

This task is carried out by the Characteristic of claim 1 specified features solved.  

An advantage of the invention is in that by attaching the Isolation on the electrode system egg term end of the metal, feathers the getter bracket the danger of flashovers between the middle part of the resilient Bracket and the resistance coating is reduced, especially if if the spring clip or the trich deviating bends have or the spring clip at Bumps vibrates. Beyond that the getter part because of not here anymore required insulating part lighter, which makes the Vulnerability to vibration the getter device is reduced.

According to one in the figure Darge presented embodiment is the invention in more detail below explained.

The figure shows schematically in cross section the parts of a color cathode ray tube, which are essentially necessary to explain the invention. The vacuum envelope of the tube consists of the front shell 1 , the funnel part 2 and the neck part 3 , which are preferably made of glass. On the inner wall of the front shell 1 there is the fluorescent screen 4 and at some distance in front of it the color selection mask 5 inside the tube. On the inner wall of the funnel part 2 is the electrically conductive resistance covering 6 , which is connected to an external voltage source via a contact bushing 7 located on the funnel part 2 .

In the neck of the tube is the electron gun 18 , which is in a color tube cathode ray tube from three Strahlerzeu supply systems, each beam generating system, for. B. the electrodes 13, 14, 15 and 16 has. Viewed in the beam direction, there is a last one in my general trode as anode called Elek 12 with a Abschirmelek trodenteil. These electrodes 12 of all three systems are generally at the same potential. These electrodes 12 receive their potential via a spring 11 , which rests on the resistance covering 6 at its neck end, so that the potential supply of these electrode parts 12 is made via the contact bushing 7 with the interposition of the resistance covering 6 .

In general, the electrodes located in front of the electrode 12 are at a much lower potential. For example, a common potential value for the electrode parts 12 is 25 kV and for the electrode 13 4 to 6 kV. The bracket is made using glass struts 17 , in which Hal tion parts of the individual electrodes are melted.

Electrons pass when operating in general, to the electrode portions 12 hardly so that by the resistance lining 6 and no current flows, and thus the electrode parts 12 have been put on the contact 7 voltage.

It can not be avoided that a high voltage flashover occurs every now and then, in particular between the electrode parts 12 and the electrodes 13 in front of them. Such flashovers can damage the electrodes. By using this covering 6 with increased resistance, however, the danger of these flashovers can be reduced ver, since in the event of a flashover a current flows through the covering 6 and, depending on the resistance of this covering, this covering has such a high voltage drop that the Arcing spark is too weak to have a damaging effect.

The getter device consists of the actual getter part 8 and the resilient metal bracket 9 , which is attached to a part of the electrode 12 with its end facing away from the getter part 8 . With a direct metallic attachment of the getter device to the electrode 12 , a considerable part of the resistance covering 6 would be short-circuited. The bracket 9 is not attached directly to the electrode part 12 , but is attached to this electrode part 12 with the interposition of an insulating part 10 . This insulating part is before given to an elongated ceramic plate, which is held on the one hand by riveting on the pot-shaped electrical part and on the other hand also by riveting or gluing to the end of the metal bracket 9 .

The getter part 8 and the resilient metal bracket 9 are at the potential of the resistance coating 6 in the area of the support of the getter part 8 . This prevents that when the middle and the getter part 8 adjacent part of the Getterhal extension bracket 9 to the resistance coating 6 , z. B. due to vibrations of the bracket 9 , electrical flashovers occur, which can lead to bleed damage.

For the resistance covering 6 , a covering is expediently used which has a resistance of approximately 100 to 10,000 ohms, preferably approximately 200 to 2500 ohms, between two measuring points attached at a distance of 1 cm. In a preferred embodiment, a resistance of about 1500 ohms was measured between two 1 cm apart measuring points.

It has been found convenient out on the resilient strap 9 is a shield 19 z. B. in the form of a correspondingly bent sheet metal part, so that the Iso lierteil 10 is at least partially switched off from the getter part 8 austre end material. By such a shield is prevented from being deposited on the material 10 lierteil Iso, which affects the insulating effect of Iso lines eiles 10th

Claims (7)

1. A cathode ray tube with a part extending from the circumference of a neck part to the circumference of a screen, the inner surface of which is provided with a high-resistance resistance coating, via which the voltage of the next electrode part of the electrode system is supplied with high voltage potential, with a getter device, the metallic getter part is arranged at one end with one end to the arranged in the neck part of the electrical densystem resilient metal bracket that it is pressed terteil on the resistance coating of the trich, and with an insulating part through which an electrically conductive connection between the closest electrode part of the electrode system and Elek the resistive coating on the getter part fastened to the metal bracket is prevented, characterized in that the electrode-side end of the metal bracket ( 9 ) on an existing construction strut ( 17 ) of the electrode system ( 18 ) or between intermediate f Exercise of an insulating part ( 10 ) is attached to the screen closest electrical part ( 12 ) of the electrode system ( 18 ). 2. cathode ray tube according to claim 1, characterized in that the insulating part ( 10, 17 ) consists of glass or ceramic. 3. cathode ray tube according to claim 1 or 2, characterized in that the fastenings between the insulating part ( 10 ) and the closest electrode part ( 12 ) or the metal bracket ( 9 ) are formed as clamping and / or riveted connections. 4. Cathode ray tube after one of claims 1 to 3, characterized net by using it as a color cathode ray tube. 5. A cathode ray tube according to one of claims 1 to 4, characterized in that the resistance coating ( 6 ) between two points 1 cm apart has an electrical resistance value of 100 to 10,000 ohms, preferably from 200 to 2500 ohms, in particular from 250 up to 1500 ohms. 6. The cathode ray tube according to one of claims 1 to 5, characterized in that the high voltage supply to the metal bracket ( 9 ) carrying the electrode part ( 12 ) by means of a spring ( 11 ), which at the neck end of the resistance coating ( 6 ) is present. 7. cathode ray tube according to one of claims 1 to 6, characterized in that a Iso lierteil ( 10 ) against precipitation of getter material shielding shield ( 19 ) is provided.