DE407725C - Vacuum interrupter - Google Patents

Description

GERMAN EMPIRE

ISSUED
ON JANUARY 2, 1925

RE IC HSPATENT OFFICE

PATENT LETTERING

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Franz Joseph Koch in Dresden and Dr. Julius Edgar Lilienfeld in Leipzig.

Vacuum interrupter. Patented in the German Empire on August 30, 1923.

Tests have shown that it is necessary. in the manufacture of a vacuum interrupter strive for maximum degassing of the metal wedges and maximum vacuum Continuous operation with strong currents and high voltages does not stop the interruption process

is adversely affected by the subsequent release of gas. A high degree of degassing of the metal parts failed in the known designs of vacuum interrupter because the cushioning the contact was effected by a metal spring in a vacuum.

This spring already warps when the glass envelope is heated to a high temperature, but it warps especially when it is ^{annealed during the 1} Purcp process, for example by throwing electrons at it, which is inevitably necessary. This prevents perfect contact between the contact surfaces. In addition, the elasticity of the spring suffers.

ίο According to the idea of the present invention, the interrupter is built so that that the final setting of the contact surfaces after evacuation from the outside can be effected. The spring that sets the contact into action also becomes attached outside after evacuation. Both improvements are made possible by that a part of the highly evacuated envelope is made deformable and on this deformable parts of the stem movable electrode is arranged. One of the possible embodiments of the inventive concept is shown in the 'figures for example. The highly evacuated Sheath ι contains an immobile electrode 2, at the end of which a contact made of temperature-resistant Metal (tungsten, tantalum, molybdenum, etc.) is attached. The other contact is on the movable electrode 3 arranged, which is supported by a weak, deformable sheet 4. This weak plate 4 is airtightly connected to the shell 1 and carries on the other of the The side facing the atmospheric air has a stem 5. This stem 5 is supported by a head 6 carried out. In the head 6 there is an adjustable slot, which after Evacuation is set so that on the one hand it is necessary to make contact Guiding the handle 5 causes, on the other hand, the movement of the handle 5 to the required The minimum size is restricted so that excessive movements of the handle 5 the membrane 5 is not stressed and torn too much. Also is on that Head 6 a spring 7 is arranged, which regulates the movement of the handle and also is put on and adjusted after the evacuation has taken place. 9 is an auxiliary electrode, which is provided with tips. These tips are arranged close to the contact surfaces in such a way that that these surfaces can be thrown from them according to Lüienfeld's autoelectronic Discharge is possible so that the electrodes are freed from the gases contained in them by electron bombardment will.

While in Fig. Ι the movement is longitudinal of the stem 5 of the movable electrode happens, the case is shown in Fig. 2, where it takes place across the stem 5. In addition, the case is shown in Fig. 2 in which the membrane 4 forms the bottom of an inwardly reaching tube, while in Fig. ι the membrane 4 is facing outwards Represents the bottom of a pipe. The immobile electrode 2 is shown in both cases as a hollow body, which in a known manner by inserting a heating coil during evacuation can be heated to a high level.

The movement can be done in both cases by applying a magnetic field an anchor 8 can act, which is attached to the extreme end of the stem. However, a device can also be provided which mechanically, for. B. is driven by an electric motor, attacks the handle and moves it.

The inventive concept can also be used in an arrangement in which both electrodes are adjustable or movable in the manner indicated. The concept of the invention can also be used when one of the contacts is liquid, for example made of mercury, a molten alkali metal or alloys of mercury with alkali metals or of alkali metals with one another. In this case the other contact is immersed in the liquid attached to a movable arm.

Claims (3)

Patent Claims: 1. Vacuum interrupter, characterized in that the movable members are carried out by deformable points of the shell, so that their Movement can be caused from the outside. 2. Vacuum interrupter according to claim 1, characterized in that the suspension of the movable members is effected by means of springs which are external are appropriate. 3. Vacuum interrupter according to claim 1 and 2, characterized in that the The stem of the movable electrodes is guided in a head, which makes the setting of the contact surfaces from the outside after evacuation has taken place and prescribes the limit of movement and on which the spring is arranged. 1 sheet of drawings.