DE1564638C3 - Winding arrangement for superconducting shunted windings - Google Patents

Description

the winding arrangement remains, which is pulled down with great force by me- and schachanische Transmission links that are on the low 30 digt the pressure-sensitive thermal insulation inside The temperature potential of the superconducting winding leaves the gap 7. This in the case of a transition gen, can be included (DT-AS 1 219 118). appearance of a shunted winding In order to protect the superconducting winding in the case, it can be prevented that, as in FIG. 2 a transition is generally shown several shown, each shunted winding part by suitable parallel resistors before, through the individual winding 35 nete subdivision and symmetrical arrangement for parts are bridged. In the case of winding arrangements, forces are compensated

with shunted superconducting windings, the arrangement according to FIG. 2 is the one through the

In the case of a transition, strong asymmetrical forces, shunt 12 bridged winding part into two parts 14 on, even if the entire winding arrangement and IS are divided, and these parts are symmetrically compensated for forces The aim of this invention is to increase the force effects caused by outside the undesirable effects of these forces exerted on magnetic bodies located in cryostats gen., arranged The transferred by the shunt 13

The invention relates to a winding arrangement for bridged winding part 16 which is also symmetrically superconducting Shunted windings arranged within one of these forces In the case of the transi-cryostat, the energized state of the force 4s tion of a shunted winding part thus remain from bodies located outside the cryostat there are always excited winding parts that are symmetrical made of magnetic material, whereby the external magnetic forces act and die gene acting on the entire winding arrangement are arranged. So there are transi-forces compensate and is characterized by the fact that there are no strong forces acting between the innedaß by subdivision and / or symmetrical arrangement 50 ren container 3 and the outer container 6 of the cryonation of each shunted winding part each one for himself.

F i g is force-compensated. 3 shows a winding arrangement for a four-

The invention will pole field by two embodiments of the bridged to 20 Wick illustrated by shunts 17 illustrated in which lung portions 21 to 24 are each divided (a / b) and sym-F i g. 1 a not yet force-compensated shunted 95 metrically arranged with respect to the short circuit 25, the superconducting excitation winding of known design The internal forces within the cryostat 26 wer-F i g. 2 a force-compensating according to the invention through a ring-shaped mechanical transmission exciter winding and transmission element 27, which the individual bobbins 28 with -F i g. 3 a force-compensated four-pole winding connects to one another and also acts as a coolant line. 60 serves, added.
In the known arrangement according to FIG. 1 is a

For this purpose 2 sheets of drawings

Claims (1)

1584 638> 1 2 superconducting excitation winding 1 within a cryogenic Claim: staten 2 provided. The cryostat contains an inside ren ring-shaped container 3, in which the SLpralei- Winding arrangement for superconducting shunted excitation winding is located and the by Kühlle Windings within a cryostat, which in the 5 center connections 4 and 5 were excited with liquid helium State of force is sent from outside. Between the inner ring-shaped bedes Bodies located in the cryostat consisting of a magnet holder 3 and an outer ring-shaped container 6 Apparent material is exposed, the on which there is an evacuated space 7, which is with entire winding arrangement acting forces of pressure-sensitive thermal insulation is filled with compensate, characterized in that the digits β and 9 are the electrical connections of the that by subdivision (14,15) and / or symmetrical winding and with the digits 10 and 11 the magnet pot Arrangement (16) of each shunted winding Ie denotes To protect the superconducting winding leiles each is force-compensated in the case of a transition, shunts 12 and 13 are present see. In the excited state of the winding 1 exercises both 15 the magnetic pole 10, as well as the magnetic pole 11 a Force effect on the winding. The winding is arranged symmetrically with respect to these poles. As is well known, superconducting windings have to be halfway compensated for the forces acting on them to a temperature level close to absolute zero and do not have to be arranged within a cryostat by separate mechanical forces. In order to keep ao transmission links between the inner and the cooling losses low, a good outer container, which worsens the heat insulation and heat insulation of the cryostat, must be provided. Good tern, be included. In the case of a transition, thermal insulation is pressure-sensitive; it allows the upper part of the winding, for example, which does not, to absorb greater forces. Because the shunt 12 is bridged, the reason one strives to flow through this winding part to the winding arrangement, because the body current outside the cryostat then flows through the shunt 12 and thus also the magnetic current flows through the shunt 12 Forces exerted on the material to force acting on this part of the coil,
compensate so that only internal forces within the still energized lower winding part of the coil