PL148B1 - Tubes with a high degree of dilution, especially Rontgen tubes. - Google Patents

Description

The present invention is applicable to high-dilution tubes, particularly Rontgen tubes with a pierced electrode, in which electrodes are released on the walls that delimit the opening by a primary process and where the primary discharge path is limited by a non-fusible insert. In the usual production of the cathode of such pipes, it turned out to be particularly important to give the hole in the flame-retardant (quartz) insert a certain size in relation to the size of the hole of the metal electrode, as well as to rotate a certain shape of the hole in the metal. it is formed between the bulb and the Rontgen cathode, it must be as weak as possible in terms of the intensity of the current in relation to the proper Rontgen discharge between the cathode and the anticathode. using a single transformer and parallel to the tube between the cathode and ant The cathode of the resistor turned on, but also because the cathode heats up at high load, if only a part of the discharge current that the cathode receives from the bulb is returned to the anti-cathode. For every electron trapped in the cathode's bore leaves its kinetic energy in the form of heat. The trick is therefore that each electron received by the cathode should release as many electrons as possible. cathode, when the hole in the quartz is not, as hitherto, greater, but equal or even smaller than the adjacent hole in the metal, so that the quartz edge protrudes over the edge of the metal. towards the center a metal ring that received electrons but did not give them back to the anti-catheter. However, since the outer ground surface 5 does not give a sufficient grip that the two holes will be perfectly centered, it is moreover necessary to guide the metal edge, which serves to keep the quartz cone Q in the right position. It is most appropriate to grind this edge into the bore of the quartz tube. Under these conditions, the hole in the cathode need not be cylindrical as originally stated. For the primary discharge to ignite, the projection of a certain part of the cross section of the metal must line in the direction of the arrow axially on the lamp. greater than it would have been given, leading to the aforementioned inconvenience. The cone must have an angle of - 4 ° -40 °. The length of the drill must be in a specific proportion to the size of the hole for the same reasons; if it were larger than twice the lower diameter, there would be too many electrons left in it, but if it were less than half the diameter, the electrons released in this hole would not receive a sufficiently defined direction of motion and the tube would then supply too much cathode rays. PL

Claims (5)

Patent claims. 1. A tube with a high degree of dilution, especially an X-ray tube with a pierced electrode, in which electrons are released on the walls delimiting the opening, as a result of the primary process, and in which the path of the secondary discharge is limited by an insert made of a non-fusible insulating material, also characterized in that the hole in the insulating insert is equal to or smaller than the adjacent hole in the metal of the electrode. 2. Pipe under the claim 1, the characteristic feature is that the metal surface (5), adjacent to the insulating insert, has a ring-shaped recess so that the central protruding part fits into a suitably shaped hole in the insulator (Q). 3. A tube with a high degree of thinning of the floor of claim 1, it is said that the lower base of the cone-shaped hole (R) in the metal faces the insulator (Q). 4. A tube with a high degree of thinning of the floor of claim 1, it is said that the angle of inclination forming the cone is from 4 ° to 40 °. 5. High-dilution tube according to Claim 1, characterized by the fact that the ratio of the lower base diameter of the conical opening to the length of this opening is between 2: 1 and 1: 2. To the patent specification Ns 148. KOZJANKI FIFLAF IN WARSAW PL