RU2659850C2 - End rotor - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to electric machine engineering. End rotor contains shaft with conducting disk and closing magnetic circuit. Closing magnetic circuit is made in the form of basic hollow bolts with internal thread, as well as additional bolts, wherein between the main and additional bolts non-magnetic threaded bushings are installed.

EFFECT: reduced heating of bolts.

1 cl, 2 dwg

Description

The invention relates to the field of electrical engineering, and more specifically to end-face motors of synchronous or asynchronous type, and more specifically to their rotors.

Known rotors of end electric motors, described, for example, in the book of V. Moskalenko "Electric motors for special purposes" - M .: Energoizdat, 1981 - p. 26. The rotor is made in the form of a disk, on which is usually located a printed winding, which requires special equipment.

Of all the known analogues, the rotor closest to the declared one is described in the book of Ignatov V.A., Vildanova K.Ya. “End-face induction electric motors of integral manufacturing” - M .: Energoizdat, 1988 - p. 254. A rotor with a die-welded winding having a trailing magnetic circuit of a traditional type is described, and fragments of a conducting disk, such as segments and sectors, can be used as windings. The rotor is naturally provided with a shaft.

The disadvantage of this rotor, in comparison with the above, is a more complex manufacturing technology, including not one operation (for example, etching), but at least three - stamping, pressing and welding.

The invention is aimed at improving the manufacturing technology of rotors, in particular at reducing the cost of winding work while maintaining the basic electromagnetic characteristics.

This is achieved by the fact that in the end rotor containing a shaft with a conductive disk and a closing magnetic circuit, according to the invention, the closing magnetic circuit is made in the form of main hollow bolts with internal thread, as well as additional bolts, and non-magnetic threaded bushings are installed between the main and additional bolts.

The invention is illustrated by drawings, where in FIG. 1 shows a fragment of the rotor, side view, in FIG. 2 - the same, top view.

The rotor contains a conductive disk 1, main bolts 2 with recessed heads, locking plates 3, pressed by nuts 4 of the main bolts, as well as nuts 5 of additional bolts. The main bolts are hollow, with internal thread, and non-magnetic threaded bushings 6 are installed between the main and additional bolts. As usual, the rotor has a shaft 7 that rotates in the bearing. An additional bolt 8 is screwed inside the sleeve.

During operation, a rotating field introduced through the gap penetrates the rotor in a chain: parallel to bolts 2 and 8, locking plates 3, parallel to bolts 2 and 8, the gap. As a result, in the disk 1, which functions as a short-circuited winding, an induced field appears, which, interacting with the stator field, creates a torque leading to the rotation of the rotor. Since magnetic flux is split in parallel between the main and additional bolts, eddy current losses are significantly reduced.

The technical and economic advantages of the rotor include its high adaptability. In this case, the possible increased heating of the bolts 2 in their non-synchronous design is more than compensated by the heat sink to the disk 1 through the heads of the bolts 2.

Claims (1)

An end rotor comprising a shaft with a conductive disk and a closing magnetic circuit, characterized in that the closing magnetic circuit is made in the form of main hollow bolts with internal thread, as well as additional bolts, and non-magnetic threaded bushings are installed between the main and additional bolts.

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