DE567860C - Device for evacuating glow cathode tubes - Google Patents

Description

From the pump melted vacuum apparatus made of glass with hot cathodes, such as. B. Glow cathode control or valve tubes and the like are, especially when it comes to apparatus that work with high voltage are not yet ready for use. The ones contained in the apparatus Residual gases must first be consumed. During this clear burn The tube is heated between the anode and the hot cathode during operational heating Cathode is placed a slowly increasing voltage, with finally the The anode is also strongly heated. Often discharges can occur, the gases free in the tube. The gases are consumed at the coldest parts of the Vitreous bodies, which in turn are often located near the edges and tips of conductive materials. As a result of the high field strengths occurring at these points with high voltage, it is possible that the adsorbed gas layers by the electrostatic forces from the glass surface be torn loose. As is known from the literature, it is precisely such low gas

* 5 quantities have a much stronger tendency to arc discharge than larger quantities, since these small residues of freed gas are already completely ionized.
Devices for evacuating hot cathode tubes, in which a gas-absorbing substance is provided in the pump line, optionally coolable from the outside and meltable on both sides of the pump line, are already known.

According to the present invention, such devices for evacuating Incandescent cathode tubes improved by having the activated carbon at the mouth Pump line in the hot cathode tube absorbing gases as a result of atomization Body is arranged, which by a metal screen, preferably a metal cylinder, against electrical fields occurring within the hot cathode tube are protected. The pump tube With the new facility it advantageously flows into the coldest part of the clear firing Hot cathode tube. This part of the hot cathode tube, which is the coldest when it is clear, can with be provided with a heating device. When evacuating using the new facility is now proceeded so that at the end of the pumping process initially the activated carbon containing Container on the pump side, then after binding the largest amount, the residual gases melted on the other side of the pump line and finally the one as a result of it Atomization gas-absorbing body is brought into action.

The new device is explained in more detail in the drawing on the basis of exemplary embodiments.

Fig. Ι shows a high-voltage valve tube, which consists of a central glass bulb G and two tubular approaches R ₁ and R ₂ . In the tubular projections 6g are the anode feed A and the cathode lead K. Fig. 2 shows an enlarged representation of the arrangements of the at R ₁ Toggle

brought melting point. The pump tube ^ is melted off at a ¹ after the pumping process has ended. In the part of the pump tube that is still connected to the discharge vessel there is an expansion in which activated carbon B is located. This charcoal is now brought into liquid air during the clear burning of the tube and then melted off from the discharge vessel at a ^2.

ίο The temperature that the vessel wall assumes during clear firing is such that the pipe attachments R ₁ and R ₂ heat up the least. The gases released could therefore be absorbed at these points.

To avoid this, you can use the pipe sockets z. B. bring an electric heating coil pushed over to a temperature of about 100 ° during the clear firing. As can be seen from Fig. 2, a magnesium wire m is fused into the socket R _1. When the point a ² melts, this is atomized by electrical heating and thus absorbs the gases that are released.

With the new device, the disadvantages mentioned at the beginning are avoided. While the clear burning of the tube, the space in which the activated charcoal is located, for example brought into liquid air, so that the gases released during clear firing be absorbed by the coal. After the clear burning has ended, the room in where the carbon is located, melted from the rest of the space of the discharge vessel.

So that the gases released during clear burning are only absorbed by the coal it is advisable to simultaneously apply the coldest parts of the glass surface to a To heat a temperature of about 100 °. This can expediently by suitably prepared electric heaters are effected. According to the invention are to bind the at Melting of the carbon bag released gases inside the discharge vessel body, such as magnesium, calcium, Tungsten or phosphorus is provided, which is used for atomization or distillation during melting are brought, which is known to take place a strong absorption of gases present. These bodies are covered by a metal screen, through the arrangement of the bodies inside of metal balls or cylinders, against electrical ones occurring inside the hot cathode tube Fields protected.

Claims (3)

Patent claims: 1. A device for evacuating hot cathode tubes, in which in the pump line a gas-absorbing substance containing, optionally coolable from the outside and fusible on both sides of the pump line container is provided, characterized in that at the mouth of the activated carbon-containing pump line in the hot cathode tube as a result Sputtering gases absorbing body (m) is arranged, which is protected by a metal screen, preferably a metal cylinder, against electrical fields occurring within the hot cathode tube. 2. Device according to claim 1, characterized in that the pump tube in the when it is clear, the coldest part of the hot cathode tube opens. 3. Device according to claim 1 and 2, characterized in that the when Clear burning coldest part of the hot cathode tube provided with a heating device is. 1 sheet of drawings