DE529835C - Arrangement for the evaporation of a getter in discharge vessels - Google Patents

Description

One used to generate a vacuum in discharge vessels with a hot cathode To evaporate getters, it is common practice that the discharge vessel is heated during operation Metal parts, for example the hot cathode or its leads or the z. B. by electron impact heated anode to train as a carrier of the getter, so that at Heating these parts of the getter evaporates.

These methods have the disadvantage that the evaporation during the pumping process takes place because the metal parts take on a high temperature for degassing have to.

The present invention relates to an arrangement and a method for evaporation of the getter after the evacuation has taken place with the tube melted, as is the case, for example, with valve tubes for high . Voltages can be used without the need for an additional heat source is.

Valve tubes or similar discharge vessels have a hot cathode, which because of their relatively great length except for their power supply wires through holding wires arranged in different places is supported. These retaining wires will be When the valve tube is in operation, the current naturally does not flow through it.

According to the invention, these retaining wires are provided with an outwardly directed power supply provided and in such a way for themselves or together with the glow wire supports which are used for power supply during operation of the vessel connected to a power source that one or more supports carry a current that corresponds to the simple filament current or the sum of the two filament branches held by the filament support corresponds to flowing individual currents.

This arrangement has the advantage that the venting of the tube is initially under the im later operation occurring conditions can take place without the on the support wires housed getter evaporates. The switchover is only carried out after the degassing has ended, by using the now occurring warming when the current passes through the evaporation of the getter occurs.

The heating of the holding wire can be done in the simplest way that one the heating current source between the one end of the filament and switches a holding wire. In this arrangement, the amperage flowing through the holding wire is the glow wire amperage same. If you make the arrangement in such a way that the one on both sides Holding wire connected to this adjacent glow wire supports and attached to the

one pole of the heating current source are connected, while the holding wire is in between is connected to the other pole, for example, double the filament current flows in it.

In the accompanying drawing are two exemplary embodiments of the invention Arrangement shown. Fig. Ι shows a valve tube with a schematically drawn Hot cathode, the filament of which is connected to a Place is supported by a special support wire, and the circuit leading to the Evaporation of the getter is required. Fig. 2 shows the implementation of the method for a hot cathode, which, for example, has three support wires in addition to the two power supply lines is provided.

In Fig. Ι 1 means the cup-shaped anode, arranged inside the cathode consisting of two filament arcs 2 and 3 is. The power is supplied during operation of the valve tube through wires 4 and 5, while the middle support 6 is used to hold the filament. Wires 4, 5 and 6 end in cap-shaped connection parts 7, 8 and 9 and have lines 10, 11 and 12 Mistake. The glow wire support 6 has a material cross-section at its upper end weakened point on which the getter 13 is arranged and which is so dimensioned is that it turns into embers after the switchover required for evaporation and brings the getter 13 to evaporate. While in normal operation of the valve tube the Lines 10 and 12 are used for power supply, the evaporation of the Getters 13 after a circuit, as shown in Fig. 1. The lines 10 and 12 are via a line 14 with the one pole of a transformer 15 is connected, while the line 11 connected to the support 6 is connected to the other pole of the transformer 15 is connected. In this arrangement, for. B. the middle filament support 6 from twice the filament current flowed through, provided that both halves of the filament have the same dimensions and thus have the same resistance, so that the getter 13 at the weakened point the support 6 is evaporated by the power loss occurring.

Fig. 2 shows the application of the invention to a cathode of larger valve tubes Power that supports in three places according to the required larger thread length is. According to the scheme of Fig. Ι on the one hand the feed support 17 connected to the supports 18 and 19 and to one pole of the. Power source 20, on the other hand the supports 21 and 22 together the second pole of the power source 20 out. Becomes the terminal voltage of the power source 20 set so that in the filament sections, which are appropriate because of the same Current distribution have the same length, the same current flows, so flows accordingly the circuit in the three middle support wires 18, 21 and 22 each double Glow wire current, so that getters placed on them in places with a small cross section evaporate.

With the help of this arrangement, the getter succeeds without additional auxiliary devices expediently to evaporate after the evacuation, whereby already during the pumping process the metal parts of the tube for the size required for later operation are degassed without the getter evaporating. The evaporation of the getter takes place when the tube is melted by switching in the manner described above.

Claims (1)

Patent claims: Arrangement for evaporation of a getter in discharge vessels for high voltage, characterized in that the holding wires required to support the glow wire, which are used during operation of the Geifäßes do not serve to feed the electricity, provided with power supply lines and are connected in such a way that they are of the single or double filament current are traversed and 'that the retaining wires on the to accommodate the Getters serving point are weakened in their cross-section, so that the getter due to the strong Joule heat that occurs here, evaporation occurs. Please refer to the sheet of drawings