30 TÍMARIT V. F. I. 195 0 Fig 5. Pollock Commutator before Machining. tire length by the steel strips on each side of it, the copper need be made only as deep as is necessary for wear and anchoring. At the same time, the segments are perfectly free from expand longitudinally without hinderance and without giving rise to increased stresses. While this type of commutator has advantages over the vee-ring commutator for machines of all types, it is particularly applicable to machines which regularly run at high speeds such as exciters for steam turbo-altema- tors, or which can attain high speed under runaway con- ditions such as exciters for waterwheel alternators, also to machines subjected to sudden shock load or quick re- versal, which require to have a commutator of low in- ertia combined with high mechanical strength. CANTED FIELD WINDINGS. A problem similar to that experienced in the design of a commutator and again arising from the poor mech- anical strength of copper has to be faced in designing strip-on-edge field windings for high-speed salient-pole A.C. machines. If the copper is arranged in the conventional manner as shown on the left hand side of Fig. 6, the centri- fugal force L gives rise to two components P and M, the former causing the copper to compress against the pole shoe and the latter tending to make the coil ex- pand and burst. The force P gives rise to no difficulty, but the copper must be supported against the force M by means of vee blocks between the poles, as shown in Fig. 7, or some similar device. This has the disadvantage that it serious- ly impedes the flow of air along the sides of the coil, which is the natural direction of air flow through the machine, and thus reduces the cooling effect of the fins generally provided for this purpose and formed by mak- ing some of the copper strips wider than the others, as shown. As can be seen, the copper segments A are interlocked with the steel retaining strips B, and these steel strips are welded at intervals along their length to steel rings C. The insulation D between segments and to earth con- sists of mica reinforced with treated glass cloth. The arrangement of the rings, which can be spaced as close- ly as is necessary to resist the total centrifugal force, is clearly illustrated in Fig. 5, which shows a Pollock commutator after removal from the building jig and prior to machining of the outer surface. Since each copper segment is supported along its en- Fig 6. Diagrammatic Section of Rotor Pole with Normal and Canted Field Windings. L P R Fig 7. Typical Salient-Pole Rotor with Vee Blocks, Squirrel-Cage Damp- ing Windings and Aerofoil Fans.

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