DE1114259B - Flat cathode for electron beam tubes, the retaining pins of which are attached to a mica disk - Google Patents

Description

Flat cathode for cathode ray tubes, the retaining pins of which are attached to a The invention relates to a cathode whose Axis is arranged perpendicular to the cathode ray tube axis and its retaining pins are attached to a mica disk.

In such arrangements it has been shown that the flat mica disk Performs undefinable movements when heated. In one case it moves Glimra disk and thus also the cathode of the control electrode (Wehnelt cylinder) path. As a result, the strength of the emission current is significantly reduced will. Much more disturbing, however, is the case when the mica disk is on moves the Wehnelt cylinder due to the heating. In most cases this leads this movement leads to a short circuit between the cathode and the Wehnelt cylinder, since the distance between the Wehnelt cylinder and the cathode is extremely small.

There are also movable cathodes for electrical discharge vessels known, which are held at one of the support points in such a way that they are due to thermal expansion when the temperature rises in the direction of the other contact surfaces move and move the cathode to adjust the distance between the Cathode and another electrode is used.

In the case of flat cathodes, which are held in place by means of retaining pins in a plane Mica washer are attached to avoid any disadvantages that occur is one arrangement to create at the predetermined distance between the cathode and another Counter electrode, e.g. B. the Wehnelt cylinder, is retained in the case of a cathode, whose axis is arranged perpendicular to the cathode ray tube axis and by means of retaining pins is attached to a mica disk, proposed according to the invention, the mica disk to form arched.

The device described is now closer to the drawings explained.

Although the arrangement described can advantageously be used for all cathode ray tubes in which a predetermined distance between the cathode and a counter electrode is to be maintained unchanged, a cathode structure with a Wehnelt cylinder is shown below.

In the figure, the cathode 2 is located in the Wehnelt cylinder 1. The heater of the cathode is not shown in the figure. The mica disk 3 is circular and is provided with holes for receiving raw rivets 10 for the retaining pins 5 . The mica disk is clamped by bending the tabs 7 of the cathode holder 8 so that the mica disk is arched away from the Wehnelt cylinder. The cathode holder 8, which consists of a cylinder, is connected to the Welmelt cylinder 1 z. B. firmly connected by welding or soldering after the desired distance between the cathode and Wehnelt cylinder has been set. With this setting, the experimentally determined value of the expansion of the mica disk when heated to a specific temperature can be taken into account, so that the predetermined distance between the Wehnelt cylinder and the cathode is achieved when heated.

In order to give the mica disk the desired bias, the flange 9 of the cathode holder 8 is pressed down slightly so that it forms a small angle with the horizontal. The mica disk 3 is provided with receiving holes. for the four tabs 7 of the cathode holder 8 . By folding over and pressing the tabs 7 , the disc 3 is pressed firmly against the flange 9 so that it can only move away from the Welmelt cylinder when heated.

With this arrangement it is particularly advantageous to choose the dimensions of the mica plate and the dimensions and material of the holding pins for the cathode so that the mica disc just moves at Erwännung as much downwards as the cathode on the basis of their Heating and the heating of the retaining pins are moved upwards, so that the cathode always maintains its normal set position and thus also the distance to a counter electrode when it is heated.

However, it is also possible to provide the flanges 9 of the cathode holder 8 with such an inclination that the mica disk is arched against the Wehnelt cylinder. In this case, the mica disk moves against the Wehnelt cylinder when it is heated. It is therefore necessary, when setting the distance between the Wehneltzyhnder and the cathode, to take into account the experimentally determined value for the expansion of the mica disk in such a way that the distance set in the cold state is increased by the predetermined distance.

Claims (2)

PATENT CLAIMS-1. Cathode, the axis of which is perpendicular to the cathode ray tube axis is arranged and the retaining pins are attached to a mica disk, thereby characterized in that the mica disk is curved. 2. Cathode, according spoke 1, characterized in that to achieve the bias, the mica disk is pressed by means of rags onto the flanges of the cathode holder, which are inclined to the horizontal. Considered publications: German Auslegeschriften No. 1015 154, 1042770.