DE631749C - Converter arrangement with a plurality of discharge vessels arranged in a Graetz circuit with gas or vapor filling - Google Patents

Description

Converter arrangement with a plurality of arranged in Graetz circuit Discharge vessels filled with gas or vapor The invention relates to converter arrangements, such as rectifiers, inverters or the like, with several discharge vessels with gas or vapor filling, mercury or hot cathode, which is constantly or at all times can be evacuated and operated in Graetz circuit. With this circuit is known to be a number corresponding to the number of phases of the alternating current system used by two discharge vessels connected in series. Every phase of the AC system becomes one of the connecting lines between the anode and connected to the cathode of these pairs of discharge vessels, while all the rest Anodes with the negative pole of the direct current network and all other cathodes with connected to the positive pole of the direct current network. Since the vessel wall in the case of discharge vessels with gas or steam filling in the company almost assumes the potential of the cathode, in this circuit are the vessels with their cathodes connected to one another are, at the same potential, while the vessels, their anodes, are connected to one another are, just like the cathodes belonging to them, at the same time different potential. The invention is now directed to the vacuum in all discharge vessels belonging to the Graetz circuit described by means of a single pumping apparatus. This is done according to the Invention in that the vessels, the cathodes of which are at the same potential, are connected to each other by a vacuum line that is connected to the vacuum pump is, while the anodes of these vessels and their power supply lines are tubular are and as vacuum and power lines to the other vessels, whose cathodes are located are at different potentials from each other are used. Such a structure the arrangement enables the vacuum to be maintained in all discharge vessels by means of a pump in a form that meets the special needs of the Graetz circuit in a simple and economical way. With arrangements according to the invention if only short insulating pieces are required in the pipelines, because the voltage differences occurring along .einer pipeline can only be small. For the same reason, there is also the occurrence of disruptive glow discharges in the Pipelines are not to be feared.

The use of a single pump for simultaneous evacuation several discharge vessels filled with gas or vapor per se not new. It is also known to evacuate through the electrodes or their Power supply lines through.

Embodiments of the invention are shown in the figures namely '' -än``: Fig. i for the case of using vöm 'discharge vessels with liquid cathode and in Fig. 2 for the case of the use of discharge vessels with - hot cathode.

The rectifier arrangement in Graetz circuit according to Fig. I is formed by four discharge vessels 1, nt, jt,, o with the liquid cathodes (mercury cathodes) k1. The electrical connections between the cathodes k1 of the vessels 1 and it and the anodes a of the vessels nt and o are formed by the tubes d . The tubes d are connected to the vessels 1 and n via short insulating tubes e and the vacuum lines f. The anodes a 'of the vessels m and o are pierced in the manner shown. The vessels m and o are connected to the vacuum pump through the pipe c. On the path indicated by the arrows drawn in, the discharge vessels 1, m and ft, o can be vented from c by a common pumping unit. In this illustrated embodiment it is assumed that the wall of the discharge vessels 1, m, n, o consists of metal and the cathodes k1 are insulated from the housing wall in the usual way. The short, insulating tubes are provided because the cathode and housing have a slightly different potential. However, this potential difference is so small (about 10 volts) that the formation of disruptive glow discharges is impossible.

In the embodiment shown in Fig. 2, the arrangement in Graetzsch circuit is formed by the four discharge vessels p, q, r, s, with indirectly heated glow electrode k2. The discharge vessels p, @: q, r; s may have walls made of glass.

The anodes a of the vessels q and s are in turn provided with through-holes and are electrically connected to the cathodes k2 of the discharge vessels p and r by the metallic tubes d. The tubes d are fused into the discharge vessels p and r and expediently serve at the same time as supports for the indirectly heated cathodes k2 of the discharge vessels p and r. The discharge vessels p and q or 'stand through the tubes d and the anodes a. r and s are connected to one another and can be evacuated from a common pump unit via pipe c.

Claims (2)

PATENT CLAIMS: i. Power converter arrangement with a plurality of in Graetz circuit arranged discharge vessels with gas or vapor filling and mercury or hot cathode, characterized in that the vessels whose cathodes are on are at the same potential, are connected to each other by a vacuum line, which is connected to a vacuum pump, while the anodes of these vessels and their power supply lines are tubular and as vacuum and power lines to the other vessels, the cathodes of which are at different potentials from one another are used. 2. converter arrangement according to claim i, characterized in that that the evacuation of the other vessels whose cathodes are at different potentials are located through the pierced power supply lines to the cathodes.