SU653685A1 - Electric machine rotor winding - Google Patents

Claims (2)

The fin rib 4 and band 5 reliably protect the coil from deformation and destruction under the action of centrifugal forces. At the same time, the ventilation system of the machine drives the cooling air into channels 6 in direction 7. When current flows in winding 1 during operation, the generated heat is removed through surface 3 in channels 6. When winding i expands due to heating, its external surface gets small deformation 8 in the space between the ribs 4 in the region of the channels 6, as a result of which internal coil forces are excluded, deforming and, in a number of cases, destroying the bandage and the coil as a whole in known constructions. In view of this, the reliability of the construction of the proposed electric coil is increased. FIG. 2, a design of an electric coil having ribs with protrusions 9, which, when a rib is installed and subsequently backed up, fixes the end surfaces 10 of the winding and prevents the coil from sliding and deforming, thereby increasing its reliability. FIG. 3 shows the design of an electric coil using a rib with protrusions 11 fixing the bandage in the axial direction and preventing it from slipping, which also increases reliability. To further increase reliability, an electric coil variant with fins simultaneously having protrusions 9 and protrusions 11 shown in FIG. 4. It is possible to design with two o-trunks 5, between which hd edge there is a gap 12, forming a lumen in the bandage in the radial direction and allowing to apply, if necessary, a radial ventilation system with rotation of the cooling air jet 7 in the radial direction (Fig. five). The heat transfer of the coil is further improved when the ribs 4 made of metal or other material with good thermal conductivity are installed on the outer surface of the wrapper. In this case, the fins 4 perform the role of a peculiar radiator, which transfers heat from the winding 1 to the zone of the channels 6 with intensive blowing. As a consequence, the cooling of the electric coil will be more efficient. Thus, the introduction of ribs with protrusions installed on the outer surface of the winding into the electrical masking structure improves the cooling of the winding by increasing its heat transfer by increasing the temperature difference between the upper layer of the winding and the cooling medium, as well as by increasing the heat transfer surface. Improving the reliability of the coil is achieved by the fact that the introduction of the ribs and their installation on the outer surface of the winding protects the coil from damaging deformations during operation. The use of an electric coil leads to improved cooling conditions and increased reliability. The electric coil can be used in electric machines that have annular, rotating, bandaged windings on the rotor. Claims The rotor winding of an electric machine mounted on a sleeve and provided with a bandage, wherein, in order to improve cooling and increase reliability, the winding is provided with ribs with protrusions mounted on the outer surface of the winding, and a bandage is applied to the ribs. Sources of information taken into account in the examination 1. A. Alekseev. “Design of electric machines, M,“ Gosenergoizdat, 1958. 2.Apsit V.V. “Synchronous maschins with claw-shaped poles, 1959. Riga, ed. AN of the Latvian SSR. five wS H x / 2 ///////////////////////// A