DE2847540A1 - CATHODE RAY TUBE - Google Patents

Description

N.V. Philips »Gloeilampenfabrieken, Eindhoven / Holland

cathode ray tube

The invention relates to a cathode ray tube with a casing consisting of a neck, a cone and consists of a front glass, an electrode system arranged in the neck for generating at least one electron beam, an electrically conductive layer extending over the inner surface of the cone into the neck, of which at least the part extending from the transition between the neck and the cone into the neck of one There is an electrical resistance layer and a getter arranged within the conical part, which by means of an elongated compliant element is supported. PHN 8947 - 3 -

909819/0776

A known method of securing a getter holder in a cathode ray tube, such as a television picture tube, is that the getter holder by means of a flexible metal strip (antenna) on the in the neck of the Tube attached to the electrode system and then pushed together with the electrode system into the tube neck will. The metal strip is pre-bent in such a way that the getter holder is pressed against the wall of the cone will. This method has the disadvantage that the spring force of the metal strip is absorbed by the electrode system becomes, which makes precise positioning and centering of the electrode system in the tube neck difficult. Such a one Fixing creates problems in particular when the tube has a resistive layer applied to the inside of the tube wall is provided, which extends at least from the transition between the neck and cone into the neck. As Described in GB-PS 1 226 728, this layer serves to limit the harmful effects that a possible electrical Flashover in the tube can affect the electronic circuitry of the television receiver. These rollover occur mainly between electrodes of the electrode system which are located at a short distance from one another, the operated at very different potentials. With such a flashover, the capacitor discharges, which is formed by the conductive inner and outer coating of the cone. This discharge is timed very quickly increasing current strengths, whereby inductive or capacitive couplings in particular the individual semiconductor parts in the electronic circuit of the television receiver can be damaged. Through the resistance layer becomes the current occurring in such a discharge is reduced, so that the possibility of damage to the electronic circuit is reduced.

The known method for fastening the getter holder has the disadvantage that the resistance layer is also made the getter evaporated getter material is coated. This shorts the resistive layer and it works PHN 8947 - 4 -

909819/0776

intended effect of the resistive layer for the most part lost.

To solve this problem, it is proposed in GB-PS 1 226 728, to attach the getter holder to an item located in the conical part of the tube. This attachment takes place before the glass cone is attached to the front glass. It is then necessary to apply a getter, against the harmful effects of gases and vapors during subsequent steps in the manufacturing process the tube is stable.

The invention has the object of creating a mounting structure for a getter in a cathode ray tube, which is simple and in which there is no direct mechanical coupling between the electrode system and the fastening element of the getter holder is present.

This object is achieved in the above-mentioned cathode ray tube according to the invention in that the flexible Element is provided with a resilient clamping member which is between the electrode system and the neck / cone transition is clamped in the neck.

The invention is based on the knowledge that the part of the resistance layer which is essential for the intended effect is essentially limited to the portion extending in the neck of the tube. Hence a small one Distance between the clamping member and the electrode system or the contact springs in contact with the tube wall of the electrode system is sufficient.

The clamping member can be of any suitable shape, but is preferably made of a metal band in the form of an open ring. In order to increase the friction between the tape that is in place and the tube wall, the surface of the tape in contact with the tube wall can optionally be roughened.
PHN 8947 - 5 -

909819/0776

An embodiment of the invention is shown in the drawing and is described in more detail below. the Figure shows a broken perspective sketch of a neck and part of the cone of a cathode ray tube according to the invention.

The cathode ray tube is a color television picture tube with a glass neck 1 and a cone 2. The inner wall of the Tube Is provided with a resistive layer 3, which extends into the neck 1. The neck 1 contains an electrode system to generate three electron beams. The electrode system contains three electron beam generation systems, each having a first electrode 4, a second electrode 5, a third electrode 6 and a fourth electrode 7 contain. The electrodes 7 are attached to a centering sleeve 8, which are electrically connected to the part of the resistance layer 3 extending in the neck 1 with the aid of contact springs 9 is.

A getter 10 is via a resilient metal strip 11 attached to an open ring band 12 clamped in the neck 1. The distance between the ring band 12 and the point at which the contact springs 9 press against the resistance layer 3 is about 1.5 to 2 cm. The resistance layer consists of about 1 part by weight of graphite powder, 6 to 10 parts by weight of iron oxide powder (FepO ^) and 1.5 to 3 parts by weight of an inorganic binder such as potassium or Sodium silicate.

When the tube is in operation, the layer 3 lies and therefore all electrodes 7 are also at a potential of approximately 25 kV. the Electrodes 6 have a potential of about 5 kV. In the event of an electrical flashover between an electrode 7 and a In the given exemplary embodiment, electrode 6 was the dynamic resistance, i.e. that as the quotient of the high voltage and the maximum current intensity that occurs in the event of an electrical flashover, defined resistance, approximately 200 ohms.

The getter 10 can easily be mounted in the tube. PHN 8947 - 6 -

909819/0776

284754Ö

will. The ring band 12 is provided with two eyelets 13 for this purpose, with the help of which the ring band 12 can be pushed onto the jaws of a pair of pliers. To insert the ring band 12 and of the getter 10 attached to it by means of the strip 11, the ends of the open ring band 12 are tightened the pliers moved towards each other and then the structure 10, 11, 12 can be pushed into the tube neck 1. Once the desired Position of the ring band 12 is reached, the pliers are relaxed, whereby the ring band 12 is clamped in the neck 1 will. The electrode system is then pushed into the tube neck 1 and the tube is fully assembled in the usual way.

The ring band 12 can also be provided in other ways with means by means of which it is placed on an insertion device can be mounted. Thus, instead of using eyelets, the ends of the open ring band 12 can be bent inward. It is also possible to use the ring band 12 or another suitable clamping member to support a further electrode, a diaphragm or a lens element for influencing the electron beam (s) generated by the electrode system (rays) to use.

Furthermore, the invention is not limited to tubes in which the electrode system in the neck is connected to the resistance layer with the aid of contact springs. The invention can also be used in tubes in which the electrode system is arranged in the tube neck, completely insulated from the resistance layer, such as, for example, in tubes in which the part of the layer extending in the tube neck also forms an acceleration electrode.

PHN 8947

909819/0776

Claims (3)

NV Philips' Glc-ej lampen / abiieken, ELndhoven / Holland PATENT CLAIMS t Μ ~ Γ) cathode ray tube with a cladding that consists of a neck, a cone and a front glass, an electrode system arranged in the neck for generating at least one electron beam, one extending over the inner surface of the cone into the neck electrically conductive layer, of which at least one extends from the transition between the neck and the cone to the neck extending part consists of an electrical resistance layer and one arranged within the cone part Getter supported by an elongated resilient element, characterized in that the resilient Element is provided with a resilient clamping member which is between the electrode system and the neck / cone transition is clamped in the neck. 2. Cathode ray tube according to claim 1, characterized in that the clamping member is made of a metal band in the form an open ring. 3. Cathode ray tube according to claim 1 or 2, characterized in that the standing with the tube wall in contact Surface of the clamping member is roughened. PHN 8947 - 2 - 909819/0776