RU2560930C2 - Rotor of end electric motor - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: invention relates to electric machine industry, namely to end electric motors of synchronous or asynchronous type, namely to their rotors. A closing magnetic conductor is made in the form of sunk screws facing to a stator and installed in a conducting disk, and ferromagnetic plates are fixed by means of bolts on the opposite side of the disk. Technical and economic advantages of the rotor include its high manufacturability. With that, possible increased heating of bolts 2 in their asynchronous configuration is compensated over and above by heat sinking to disk 1 through heads of bolts 2 and to laminated plates 5.

EFFECT: invention is aimed at improvement of a manufacturing technology of rotors, namely at reduction of costs for winding work so that the main electromagnetic characteristics are preserved.

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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 induction electric motors of integral manufacturing." - M .: Energoatomizdat, 1988 - p. 254. A rotor with a stamp-welded winding having a trailing magnetic circuit of a traditional type is described, and fragments of a conductive disk, for example segments and sectors, can be used as windings. The rotor is naturally provided with a shaft.

The disadvantage of this rotor compared to the above is a more complicated 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 the closing magnetic circuit is made in the form of bolts with recessed heads facing the stator installed in the conductive disk, and ferromagnetic plates are fixed to the bolts on the opposite side of the disk.

The technical result is achieved by performing the closing magnetic circuit in the form of a chain of bolts and plates fastened together.

The invention is illustrated by drawings, where Fig. 1 shows a rotor in an asynchronous embodiment, a side view, Fig. 2 is the same, but in a synchronous embodiment, a side view, in Fig. 3 is a top view of a rotor.

The rotor contains a conductive disk 1, bolts 2 with recessed heads facing the gap 3, inserted into the holes 4 in the disk, the plates 5 of the magnetic circuit are superimposed on the bolts and secured by nuts 6. In the synchronous version, a permanent magnet 7 is placed between the plates and a distance sleeve 8 is installed The impact on the rotor is carried out by the right pole pieces 9 and the left pole pieces 10 of the stator through the air gap 3. As usual, the rotor has a shaft 11 that rotates in the bearings. Tips 9 and 10 belong to the same pole division, maybe several.

During the operation of the rotor, the rotating stator magnetic field introduced through the gap 3 and pole pieces 9 and 10 penetrates the rotor along the chain: left tip 9 - gap 3 - bolt 2 - plates 5 - second (right) bolt 2 - gap 3 - right tip 10. 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. In the synchronous version (figure 2), the stator field interacts with the field of a permanent magnet 7, or an excitation source.

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 and to the laminated plates 5.

Claims (1)

A rotor of an end electric motor containing a shaft with a conductive disk and a closing magnetic circuit, characterized in that the closing magnetic circuit is made in the form of bolts with recessed heads facing the stator installed in the conductive disk, and ferromagnetic plates are fixed to the bolts on the opposite side of the disk.

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