SU18362A1 - Ionnah bottom tube - Google Patents

Description

, Already known discharge tubes (for example, Tungar type rectifiers) with an incandescent cathode, which, in order to compensate for the volume discharge and reduce the voltage drop, are filled with gas (for example, argon). In order to maintain a high temperature of the cathode, during the whole period of tube operation, it remains connected to the constant or non-alternating current circuit. Such tubes usually operate at small voltages, since an increase in voltage is associated with the occurrence of undesirable, so-called reverse conduction, i.e. the passage of current in the opposite direction. The cause of such conductivity is the ionization of the gas at voltages of about 80-100 volts and the occurrence of an involuntary discharge. The elimination of this disturbing normal tube phenomenon is usually achieved by the mutual arrangement of the electrodes, in which the distance between them is always less than the free path of the electron in a gas of a given pressure. According to the invention, the cathode in said tubes is composed of two parts, one heated and the other heated around the first and surrounded by a non-conductive part, for example, the wall of a flask or a screen. To prevent. rotation of the discharge between the electrodes of the tube along a path longer than the free path of the electron, in the gas filling the tube, the non-conducting part is located so that the path of the power line between the edges of the second part of the cathode and the corresponding edges of the anode is interrupted by it.

In FIG. 1 shows a tube with an auxiliary cathode a and a working cathode. 2-6 are various forms of the tube and FIGS. 1a and 6a are various forms of the execution of an incandescent. the cathode.

To rectify both half-periods of alternating current, an ion tube can be used, equipped with one KE cathode with two anodes A, A, symmetrically located on both sides of the cathode (Figs. 3, 4 and 5). Thus, the mutual arrangement of the anodes and the cathode eliminates the possibility of short circuits between the anodes, when they are included in different ends of the transformer winding. For a more reliable protection against short-circuiting, the anodes and cathode are placed inside non-conductive parts (bulb walls or screen D-Fig. 6) so that there are no other side paths for gas electron discharge between the anodes, crOm as in the direction of the direct connection both anodes and passing through the cathode. Eatod in this case (Fig. 6a) can be placed in the central hole of the disk F, which is electrically connected by one of the current lead conductor. Conductive extensions D (Fig. 3) are used to distance the edges of the electrodes from the discharge space: in this case, one of the cathode current-carrying conductors is attached to part D and the second is placed in insulating sleeve B.

A similar tube with a single anode is shown in FIG. 2. The current conductor of the heated part K of the cathode is attached to the second part, and the other current conductor passes through the insulating sleeve B.

In all of the above tube designs, a cathode can be applied (Figs. 1 and 1a), consisting of a part heated by the current, and with which part b is fastened at one end (or b), which is heated by ion and electron bombardment.

After switching on the rectifier, the arc between the auxiliary cathode o, and the anode heats the main cathode 6 (b) and the bright spot (when the suppressor current is turned off, or when the current is not turned off) the main cathode is further heated. required for dissolving electrons & n is due to the bombardment of it with ions and electrons. Thus, the auxiliary cathode a, which is the source of the current source, only works at the moment of start.

PROPOSAL SECTION.

1. An ion discharge tube with a heated cathode, the distance between the electrodes of which is less than the free path of the electron in the gas filling the tube, characterized in that the cathode consists of two parts, one is glowing the other — located around the first and surrounded by the edge The non-conductive part, for example, the wall of the flask or the screen D (FIG. 6), is flattened so that the power line between the edges of the second part of the cathode and the corresponding edges of the anode is interrupted by the specified non-conducting part to prevent discharges between the el Electrodes of the tube along the path, the bolzheyu length of the electron free path in the gas filling the tube. . 2 When characterized in paragraph 1 of the tube

the use of two anodes A and A, located on both sides of the cathode K (Fig. 4).

3. When characterized in and. Clauses 1 and 2. Application of conductive nastaBok D D.1GH to separate the edges of the electrodes from the discharge space (Fig. 3).

4. Form and implementation described in n. Claims 1 and 2, consisting in that one of the current-carrying conductors of the heated part L is attached to the second part JTj of the cathode, while the other of the current-carrying conductors passes through isolator1; th,: sleeve b (Fig. 2) .

5. The form of the tube described in paragraphs 1 and 2, consisting in that the cathode is placed in the central apertures of the metal disk F connected electrically with one of the conductive conductors (fng. 6a).

8. When characterized, in par. 1 2 tube application of the incandescent part of the cathode, consisting of the incandescent part and fastened at one end with the last part b, incandescent and electron bombardment (Fig. 1).

to patent MM Sitnikova № 18362