DE1015544B - Grid-controlled gas or vapor-filled discharge vessel - Google Patents

Description

GERMAN

The invention relates to an improvement of the known gas or steam-filled, grid-controlled Discharge vessel (power gate). When using such tubes, the need has arisen exposed, possibly several separate circuits simultaneously by means of a single tube to control. This was with the. known. Arrangements which consist of a cathode, an anode and a or several control grids, actually possible. According to the invention, however, the switching measures simplify considerably, the invention is therefore based on a grid-controlled gas or Vapor-filled discharge vessel for the simultaneous switching of separate current branches using several anodes of the same area with separate feeds and several control grids. The invention consists in that all control grids, which may represent equivalent control groups and are suitably nested and arranged symmetrically to the cathode and the anodes Form individual parts, all anodes are assigned.

It is already a discharge vessel arrangement with three anodes according to the three phases of the three-phase current Known for controlling electrical currents, each anode has one or more individual control grids as well as an auxiliary grid of its own or shared with other anodes. Through one of the auxiliary grids proportional to the discharge current supplied negative voltage will be the displacement of the Ignition characteristic, caused by the influence of an adjacent discharge gap, canceled. To this In this way, an even load distribution is achieved on all anodes (phases) when the tube is ignited.

In addition, there is an electrical discharge vessel with two independently controllable, one and control electrodes assigned to the same anode became known, However, the control electrodes are arranged so that the influence of the anode on the potential in front of the cathode is greater than the corresponding influence of each individual control electrode. However, such an arrangement differs significantly from one for achieving one Coincidence behavior, namely in which the control grids must be designed so that the Influence of the anode on the potential in front of the cathode, d. H. the anode penetration is smaller than the corresponding one Influence of the control grid.

In contrast to these known arrangements, the tube according to the invention has, inter alia, the significant advantage that as a result of not only building, but also orderly equality, d. H. electrical equivalence of the control organs, with her with much lower. Control voltages, a real coincidence behavior is achieved.

Grid-controlled gas or vapor-filled discharge vessel

Applicant:
Siemens & Halske Aktiengesellschaft,

Berlin and Munich,
Munich 2, Witteisbacherplatz 2

Dr. Karl Ludwig Rau, Munich,
has been named as the inventor

According to a proposal are in such a gas discharge tube, preferably for the production of Coincidence switching operations, several equivalent S expensive electrodes formed in such a way and between The cathode and anode are arranged so that all grids have identical characteristics for themselves.

This was achieved, for example, by the fact that the control groups consist of a plurality of comb-like nested, electrically equivalent individual electrodes. With such a. arrangement it is advisable to arrange the anodes in such a way that the equivalence of the control electrodes is preserved. It can be achieved, for example, that the anodes symmetrically, if necessary are arranged star-symmetrically to the rest of the electrode structure. According to a special training According to the concept of the invention, both the grids and the anodes are cylindrically symmetrical a common coaxially arranged cathode, preferably hot cathode, constructed; can the anodes z. B. be arranged one above the other in the axial direction cylindrical rings.

There are some in the drawing. Embodiments of the device according to the invention, for example shown; and that shows

1 shows a cross section perpendicular to the axis through a cylinder-symmetrical electrode arrangement a gas or steam-filled double grid tube. 1 means an indirectly heated cathode. 2 and 3 are two nested arrangements of bars, all on a common Lying cylinder surface and which are each combined to form a control grid. 4 and 5 are two Semi-cylindrical anode sheets that complement each other to form a closed cylinder. At the edges the half cylinders overlap due to bends.

709 696/255

The two tax systems are evidently completely equivalent to this structure. The tube is above all in coincidence circuit to control dialing processes, for example in telephone circuit technology, thought. The embodiment can be reduced by increasing the number of grids and anodes Change the retention of the symmetry property as required.

A symmetrical electrode structure is also shown in FIG. 2. 1 again means the to cathode. Four control grids 6, 7, 8 and 9, each consisting of two bars parallel to the cathode, and four corresponding anodes 10, 11, 12 and 13 are arranged around them in star symmetry. In this case, the control grids are switched in such a way that ignition does not take place in the event of coincidence but rather in the event of anticoincidence, ie when one of the control grids already has the ignition voltage.

Fig. 3 shows a likewise cylindrically symmetrical arrangement of the electrodes, only a single control grid 17 is provided but in which except for the * ° cathode 2 and 3 this symmetric anodes 14,15 and 16. With this arrangement, three different switching paths can be switched at the same time.

In FIG. 4, the anodes 18 are arranged in a star shape and are surrounded by a cylindrical shielding surface, e.g. B. Screen grid or housing surrounded; 20 means the control grid arrangement.

The exemplary embodiments can be modified in many ways; for example by that one or more screen grids between cathode and anode, preferably between grid and anode, are provided. In the case of a cylinder-symmetrical structure according to the exemplary embodiments, this can Screen grid, for example, made of a cylindrical helix, a cylindrical mesh network or a with corresponding slots or other openings provided cylinder body exist.

The device according to the invention is used with particular advantage in circuit arrangements which are used to shut down voters and which by several magnets working alternately driven under the influence of mechanically controlled during the voter movement There are contacts that can be bridged to cause the voter to be shut down.

Claims (6)

Patent claims: 1. Grid-controlled gas or vapor-filled discharge vessel for simultaneous switching of separate ones Branch circuits using several anodes, of the same area with separate ones Feeders and several control grids, characterized in that all control grids, the possibly represent equivalent tax groups and appropriately nested and form individual parts arranged symmetrically to the cathode and the anodes, all anodes assigned. 2. Discharge vessel according to claim 1, characterized in that the anodes are designed and are arranged so that they in turn are symmetrical to the cathode control electrode arrangement assigned to them are. 3. Discharge vessel according to one of claims 1 and 2, characterized in that the anode and the continuous lattice arrangement cylindrically symmetrical to the coaxial cathode - if necessary Hot cathode - are arranged. 4. Discharge vessel according to one of claims 1 to 3, characterized in that the anode plates overlap each other that they have a contiguous, optionally shielding the discharge space to the outside, z. B. cylinder jacket-shaped Form area. 5. Discharge vessel according to one of claims 1 to 4, characterized in that a preferably openwork, for example reticulated or helical, or made up of several separate ones Share existing screen grid between grid arrangement and anode arrangement is provided. 6. Use of the discharge vessel according to one of claims 1 to 5 in coincidence or Anti-coincidence circuit. Considered publications:
German patent specifications No. 695 891, 719 020, 810. 1 sheet of drawings © 709 696/255 9.