DE757913C - Braun tube with baffles - Google Patents

Description

There are already · Braun tubes with baffles; and! a luminescent screen which extends perpendicular to the axis and is provided with a central opening ¹ , the luminous surface of which is turned away from the cathode and onto which the electron beam, after it has passed through the central opening, is so applied by means of a; directed perpendicular to the electron beam! Magnetic field is bent back that it hits the fluorescent screen, known. These known Braun tubes have only a low sensitivity because the electron beam bent by the magnetic field does not lose any of its speed. Dk invention ¹ relates to a Braun tube with baffles and a luminescent screen extending perpendicular to the axis and provided with a central opening, the luminous surface of which is turned away from the cathode and onto which the electron beam, after it has passed through the central opening, passes through a perpendicular to the tube axis arranged electron mirror is bent back. According to the invention, a considerable increase ^{1 in} the deflection sensitivity is effected in that the deflection plates in the space between the luminescent screen and the preferably through

visible mirror electrode are attached. It is already a Braun tube in itself known with a mirror electrode. In this known Braun tube, however, there are the baffles not in the space between the fluorescent screen and the mirror electrode, so that in this case the deflection sensitivity is relatively low. In contrast, in the arrangement according to ίο the invention, a substantial increase in Deflection sensitivity achieved because the beam not only passes through the deflection field twice, but also has a reversal point in which it increases the speed in the axial direction Has zero, which has a distracting effect compared to a straight line and only reduced in speed Beam is not only doubled, but increased far beyond that. The tube according to the invention, which in addition to the high sensitivity has the advantage has a short overall length, is based on the embodiments shown in the figures explained in more detail. In Fig. 1 is a Braun tube 1 shown, which is provided with a cathode 2 and a control electrode 3. She shows the end opposite the cathode is arranged perpendicular to the tube axis Electron mirror 4, for example as a transparent metallic covering of the planes Wall surface formed and also with one or more ring diaphragms or cylinder-shaped additional electrodes are provided can be. The electrons emanating from the cathode are transferred from the mirror to the Luminous screen 6 thrown, which is attached to the back of the anode 5. The deflection of the electron beam takes place by means of Deflection plates 7 to 10, which are preferably mounted at the same location on the axis and are bent concave against this, as shown in Fig. 2 in a section perpendicular to Shows axis of tube. To illustrate the action of the tube is the path of the electrons for a given deflection voltage indicated by 11.

In the case of the tube according to the invention, the fluorescent screen must be exposed to the electrons once is penetrated, be provided with a central opening. It is of course not necessary to attach it to the anode as shown, it could also be attached to one be arranged special, appropriately conductive pad.

If the electron mirror is made transparent, an observation, photographic Recording, projection, etc. of the fluorescent screen take place in a vertical view. The electron mirror is needed for this purpose not to consist of a transparent, coherent layer, "he can also be designed as a network or as a plate or ring with a central opening.

The last two cases, however, require a much higher negative potential, if the desired mirror effect is to be achieved. One forms the negative mirror electrode as a network, the resulting fuzziness of the observed Fluorescent screen image can easily be compensated for by giving the tube a corresponding Optics is placed in front of it, which images the luminescent screen sharply, but for which the network only weakens the Intensity means.

While in the case of the tube according to Fig. 1 it was assumed that the effect of the mirror that of a plane mirror, the two cases are indicated in Figs. 3 and 4 that the Mirror has a dispersing or collecting effect. While in the former case a If a further increase in the deflection sensitivity is achieved, the second case offers the advantage greater intensity of the image. According to Figs. 3 and 4 are the different optical Effects of the mirror through a corresponding curvature of the negatively charged Electrode achieved.

Another option is to go the bias voltages of the negative electrode to choose upstream additional electrodes so that the desired effects result. It is therefore expedient to provide additional electrodes of this type, since in this way can achieve that the refractive power of the mirror is adjustable even in the finished tube is.

If the negative electrode is selected according to Fig. 4, i. H. opposite the cathode concavely curved, the same effect can also be achieved without a special additional electrode Achieve a collecting effect in the vicinity of this electrode, at a greater distance a distracting effect ceases and the predominance of one or the other effect can be adjusted by the amount of bias applied to the electrode 4.

Claims (4)

Patent claims: • i. Braun's tube with baffles and a perpendicular to the axis extending, luminescent screen provided with a central opening, the luminous Surface of the cathode is turned away and on which the electron beam after it has passed through it in the central opening. bent back by an electron mirror arranged perpendicular to the tube axis is characterized in that the baffles in the space between attached to the fluorescent screen and the preferably transparent mirror electrode are. 2. Braun tube with two or more pairs of baffles according to claim i, characterized characterized in that both or all pairs of plates are mounted between the same two planes perpendicular to the axis and the plates are bent concave towards the axis. 3. Braun tube according to claim 1 or 2, characterized in that the Refractive power of the mirror is adjustable. 4. Braun's tube according to claim 1 or the following, characterized in that that the mirror electrode is concave with respect to the cathode. To differentiate the subject matter of the invention from the state of the art, the granting procedure the following publications have been considered: German patent specification No. 397 419, 500619; French patents No. 774 334,
803 155, 831 215. 1 sheet of drawings 1 5028 5.