DE1037028B - Liquid jet converters - Google Patents

Description

The development of the liquid jet converter with a rotating sprayed against fixed contacts Fluid jet has been made possible in recent years primarily by using a single, Gas-tight encapsulated vessel for the drive motor, which was mostly of such a common type, and which provided the centrifuge conveying the contact liquid (cf. also German patent 841 778). Through this succeeded in mastering the contact and the beam guidance so that continuous operation without wear the contacts could be driven. In recent times, such shaft bushings have become specific developed for the implementation of a drive shaft for such a liquid-conveying centrifuge, which also enabled continuous operation with a leading shaft. For this were seals provided, in which a final liquid bath is provided between fixed and rotating parts was. Then elastic shaft seals and ground shafts were also proposed, which too with the correct arrangement enabled a gas-tight shaft leadthrough.

The main patent specifies the design of a gas-tight shaft bushing in which the liquid sump covers the bushing at the bottom of the vessel.

The drive shaft for the centrifuge is therefore inserted from below. That was known per se (see British Patent 451079). The known arrangement, however, has due to its bearing training no secure closure of the interior of the vessel with respect to the exterior.

In the German patent specification 922 185 has already been mentioned that for the bridge circuit, so at converters to be electrically isolated from each other (the vessel usually has a self-defined potential), a drive must be provided for each centrifuge if a shaft through it is to be avoided target. A common drive for several vessels is only possible if there is a secure closure ensuring bushings are available. For the rectifier bridge circuit or for all converter circuits with rigid frequency coupling that require several converter vessels, on the other hand, parallel running of the drive elements is an absolute requirement.

The recently developed bushings now make it possible to force parallel operation with that the centrifuges sit on a shaft and the parallel work only through static adjustment the vessels and the centrifuge attachment needs to be fixed on the shaft. It is called Further development of the arrangement according to the main patent proposed that, according to the invention, be applied to the abortion-liquid jet converter

Addendum to patent 938 140

Applicant:

LICENTIA Patent-Verwaltungs-G. m. b. H., Hamburg 36, Hohe Bleichen 22

Dipl.-Ing. Hellmuth Böhm, Berlin-Charlottenburg,
has been named as the inventor

The centrifuge of another converter vessel hangs on the shaft of the drive, whereby the shaft sags at least one elastic shaft coupling and at least one radial bearing from above into this second Converter vessel is introduced.

The drawing shows, for example, the invention; in fact

Fig. 1 shows the structural arrangement of two converter vessels 1 and 2, which are approximately in a bridge circuit work as a rectifier according to FIG. The expediently identically designed centrifuges 3 spray contact jets against the fixed contacts 4, which are also expediently designed in the same way Common drive motor 5, a synchronous motor for rectifier operation, has a long, continuous output shaft 6, which is introduced into the vessel 1 from below and into the vessel 2 from above. The implementation of the vessel 1 consists initially of an elastic shaft seal 7, a bearing 8 and a surface-ground Shaft flange 9. The shaft is surface-ground in the bearing with high accuracy. Between the Vessel space 10 and the outer space is now still the contact liquid bath at the bottom of the vessel, which has a sealing effect. A bearing 11 is provided for the shaft to center the centrifuge. In the lower vessel 2 is introduced through the shaft 6 from above. First is a shoulder bearing 12 for a shaft flange 13 is provided. The two elastic shaft seals 14, 15 and the bearings 16, 17 seal the interior 18 of the vessel 2 from the exterior. Due to the rigid connection between Asynchronous operation of the two converters against each other is made impossible for the two centrifuges. The two vessels form the plus and minus poles of the rectifier and must therefore be against each other be isolated. Must be on at least one vessel

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therefore care must also be taken for an isolated or isolating shaft bushing. The vessels are mostly at the same potential as the contact liquid (see symbolic representation in Fig. 2). Therefore, the shaft 6 also has the same potential as the vessel 1, because it is precisely the liquid should also act as a seal. Either the shaft itself consists entirely or partially of insulating material, or two isolated shafts are provided on the armature of the motor 5, or the shaft is guided through an insulated bearing into an insulation entry in the centrifuge of the vessel 2.

The invention can be used wherever two power converters are rigid (and electrically rigid) have to work coupled with each other. Any rectifier, inverter or converter circuit that If several vessels are required, the centrifuge drives must be rigidly coupled. But also the simple one Parallel operation for increased performance such a rigid coupling.

Claims (3)

Patent claims: 1. Liquid jet converter with a rotating vessel in a vacuum or inert gas Liquid jet and gas-tight implementation of the shaft of the drive member, in which the Liquid sump at the bottom of the vessel containing the centrifuge, the downward to the drive through shaft covers, according to patent 938 140, characterized in that on the abortive Shaft of the drive the centrifuge of another converter vessel hangs, whereby the shaft sags at least one elastic shaft coupling and at least one radial bearing from above into this second converter vessel is introduced. 2. Converter according to claim 1, characterized by the use in rectifier, Inverter or converter operation if more than one vessel and a rigid drive coupling are required will. 3. Converter according to claim 1, characterized by the use of several in parallel Vessels to increase performance. Considered publications:
French Patent No. 610 071;
British Patent No. 451 079:
German patent specification No. 706 071. 1 sheet of drawings © «09 598/4« 8.58