FR2689313A1 - Anode connection contact for picture tubes. - Google Patents

Abstract

To improve the conductivity of the anode connection contact (10) for picture tubes with anode getter, the invention provides that only the pin (17) on which is fixed the retaining spring (18) for the getter of anode, is not made, like the foot (11), of a material having a thermal expansion coefficient adapted to that of the glass cone (12) but of a material which, under the action of temperature and in the presence of of oxygen, forms an electrically conductive oxide. The foot (11) and the pin (17) are interconnected, preferably by electric welding.

Description

Description

  Anode connection contact for picture tubes.

  Technical Field The present invention relates to improving the conductivity of

  picture tube anode connection contacts with anode getter.

  State of the art The anode connection contacts of image tubes with anode getter are traditionally made in one piece and include a foot and a pin These anode connection contacts are sealed with the foot in the cone of the glass picture tube in such a way that the pins on which the retaining spring of the anode getter is fixed, are oriented towards the inside of the picture tube On the far side of the pin, the foot of such a connection contact anode may have a flange behind the projection of

  which block the claws of the anode plug.

  Since the anode connection contacts must be sealed in the cone of the glass picture tube, these anode connection contacts have long been made of materials which have a suitable coefficient of thermal expansion

  to that of the glass cone These are generally chrome-nickel steels.

  Ni Fe 47 Cr is for example a typical material from which such an anode connection contact can be produced. After their manufacture, the known anode contacts may already be coated with an oxide layer at the factory. to exclude the formation of rust until the anode connection contacts are placed in the cone. These anode contacts are sealed in the cone by heating the contacts.

  anode by induction and then pushing them heated into the cone.

  Since during this induction heating operation, the connection contacts must be brought to a temperature of around 10,000 C, oxidation of chromium-nickel steel occurs on a surface at least during this step of manufacturing due to the presence of atmospheric oxygen This oxide layer which covers the anode connection contact especially in the areas

  which are not sealed in the cone, is extremely damaging.

  This is due to the fact that the oxide layer resulting from the oxidation of chromium-nickel steel is not electrically conductive When, after the heat treatment of the cone, the retaining spring for the getter is slid anode on the pin of the anode connection contact, this retaining spring must slightly scratch the oxide layer in order to establish an electrically conductive connection between the pin and the retaining spring Since often this type of establishment of the scuffing contact does not work in practice, it is necessary to carry out at least one subsequent treatment of the tubes in order to establish an electroconductive connection The invention therefore aims to indicate an anode connection device in which the simple fact of sliding the retaining spring for the anode getter allows at any time to establish immediate contact

  between the spindle and the retaining spring.

  Presentation of the invention This objective is achieved by the fact that the pin of the anode connection contact is made of a material which, under the action of temperature and in the presence of oxygen, forms an electroconductive oxide and that this pin is connected, preferably welded, to the foot of the anode connection contact. In addition to good contact between the inner conductive layer and the retaining spring for the anode getter, a constant resistance is also obtained.

disruptive radiation.

  When, in accordance with claim 2, the spindle is made of structural steel (steel 37), an inexpensive production is obtained which does not raise any problems from the point of view either.

  of the connection with the foot of the anode connection contact.

  Means of Carrying Out the Invention It is now necessary to explain the invention in more detail using a single figure. This figure represents a side view of an anode connection contact 10 The foot 11 of the anode connection contact 10 is sealed in the glass cone 12 (shown in section) The foot II of the anode connection contact 10 has the shape of a truncated cone, the edge of the foot 11 resting on the larger diameter on the outer side 13 of the cone 12 The foot 11 of the anode connection contact 10 is made of a material whose coefficient of thermal expansion is adapted to that of the glass of the cone 12 In the present example of implementation work, foot 11 consists of

Ni Fe 47 Cr.

  As can be clearly seen in the figure, the foot 11 of the anode connection contact 10 has a recess 14 on the side remote from the inside of the image tube. A circular flange 15 penetrates into the region of the recess 14, flange behind which claws engage

  of the anode plug (not shown).

  A pin 17 is placed on the side 16 of the foot 11 which is turned towards the inside of the image tube, which pin is electrically welded to the foot 11 This connection of the foot 11 and of the pin 17 was carried out before the foot 11 of the anode connection contact has been sealed in the cone 12 of the image tube Pin 17 is made of a common structural steel, namely steel 37 The retaining clip 18 of the anode getter (shown in part ) is threaded onto the pin 17 It is clearly seen that the inner conductive layer 19 applied to the inner face of the cone 12 is connected directly to the pin 17 The fact that the pin 17, by its particular material, forms an oxide layer electroconductive in Fe 3 04 under the action of temperature and oxygen, makes it possible to establish an electroconductive connection between the pin 17 and the inner conductive layer 19 as well as the retaining spring 18 for the anode getter.

Claims (2)

  1 Anode connection contact for picture tubes with anode getter, characterized in that only the pin (17) on which is fixed the retaining spring (18) for the anode getter, consists of a material which, under the action of temperature and oxygen, forms an electroconductive oxide, and which the pin (27) is connected, preferably by electrical welding, to the   base (11) which is sealed in the cone (12) of the image tube.   2 anode connection contact according to claim 1, characterized in that the pin (17) consists of a steel of standard construction (steel 37).