DE2201684A1 - Electric inductor machine - Google Patents

Description

Uneer sign: P 2159

ELESSEY HANDEL UItD INVJDSTMGiJTS AG
65QO ZvLRj ₁ Switzerland
Gartenstrasse 2

Elelctri s before 1 nrlu k t or machine

The invention relates to electrical machines at which the magnetic flux through pronounced poles of a rotor produced in other ways than by sounds on the poles is, ία) in general by a single excitation winding, which is installed in the fixed part of the machine; Such Maschino η should here Induktormaschineη exactly will. A well-known example of such a machine is the so-called Lundel! machine, with two pole pieces with toothed poles are arranged on both sides of a stationary field winding, to which they are aligned coaxially are that 3ie have a fixed axis made of ferromagnetic «] Surrounding material on which the runner eats attached by means of bearings.

In these known inductor machines, the rotor was from worn one or more bearings, and it has been found that these bearings suffered considerably from erosion and corrosion phenomena, leading to premature Failure lead tone. Serve erosion and corrosion phenomena were created by tensions in your or everyone

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Rotor bearings were induced by the leakage magnetic flux that passed through the bearing surfaces.

The aim of the invention is to reduce the amount of leakage flux that passes through the or each rotor bearing goes.

In the case of an inductor machine with one that carries a winding Stand part, a pole-bearing runner and at least a bearing for the rotor this is achieved according to the invention by a Magniflußpfad going through the machine low magnetic resistance, which bypasses every bearing and has a shielding effect for the every camp yields.

A stationary jacket made of ferromagnetic material, which extends axially through, is preferably located in the magnetic flux path the rotor carrying the pole to a fixed yoke part which serves to return the magnetic flux to the stator part carrying the winding, and the or each Bearing for the rotor is arranged inside the jacket in such a way that e3 through the jacket against the one that excites the rotor poles Magnetic flux is magnetically shielded. The coat is preferably QO designed to be axially over the ends of the. Yoke part protrudes, and the or each bearing is then housed in the protruding portions of the jacket. This training results in a further improvement in the shielding effect. Two bearings can be used for the runner be, then in each axially protruding portion of the shell, a bearing can be used.

An embodiment of the invention, which relates to a unipolar Lundel! machine is shown in the drawing shown. Show in it:

Pig.1 is an axial sectional view of the machine and

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220168A

Fig.2 is a cross-sectional view of the machine, with some Parts are omitted.

The machine shown in the drawing comprises a laminated stand 1 with a cylindrical inner surface The stator 1 carries a distributed stator winding 2 (see Pig.1), which is wound around the stator poles 2Λ. The stand surrounds a rotor 5 made of ferromagnetic material. Of the Rotor 5 has pronounced poles G and a cylindrical inner surface 7. The rotor 5 surrounds a stationary, im essential cylindrical jacket 8, which also consists of ferromagnetic material.

The stand 1 is mounted on the jacket 8 with the aid of a yoke part 4 which consists of a yoke attached to the jacket 8 Ilanschteil 4a and a perpendicular from the flange 4a protruding Collar part 4b consists. The laminated stand 1 is attached to the collar part 4b in the manner shown so that that it is axially at a distance from the IFIa ns elite il 4a, thus an excitation winding in a radial continuation of the space between the stator 1 and the flange part 4a 9 can be accommodated. This excitation winding causes a magnetic flux indicated by the arrows F. goes through the stator 1, the rotor parts 5, 6, the jacket 8 and the yoke 4.

So that the rotor 5 is rotatably mounted, it is on an end cap 11 made of non-magnetic material, for example attached to a suitable light metal alloy. This end cap 11 is attached to a rotating shaft 10, which goes through the jacket 8. The shaft 10 is mounted in roller bearings ■ 12, 13, which are in suitable bearing bores in the both end portions of the jacket 8 are accommodated. As can be seen from the drawing, the two Sndabgchnitte protrude of the shell 8 over the outer end faces of the stand

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or the yoke 4 addition, so that the bearing 12, 13 containing portions of the hanteis 8 outside the path the magnetic flux required to operate the machine lie; this training improves the alr-chirrawl of the shell 8 for the bearings 12, 13.

The invention is of course not limited to the particular embodiment of an inductor machine shown as an example limited, but can find application in a wide variety of such inductor machines.

PateritaiiM

2Ü9 ": M) 'VlU 9

Claims (1)

- 5 - Pa te η verifications Induktorroaachine with a stator case carrying a winding, a pole-bearing runner and at least eiusra Bearing for the runner, indicated by a ■ Magnetic flux moving the machine with little tagging Resistance bypassing the or each bearing and providing a shielding effect for the or each bearing. 2 _f inductor machine according to claim 1, characterized in that in the Magnot flux path there is a fixed jacket made of forroirr-gnetischem material, which extends axially through the rotor to a fixed yoke hole which serves to return the magnetic flux to the stator carrying the winding, and that the or each bearing for the rotor is arranged in the interior of the jacket so that it is magnetically shielded by the jacket against the magnetic flux exciting the rotor poles. 3, inductor machine according to claim 2, characterized in that that the jacket protrudes axially beyond the ends of the yoke parts, and that the or each bearing in a protruding portion of the jacket is housed. 4. Inductor machine according to one of the preceding claims, characterized in that two bearings are provided. 209830/1049 Lee r s e i t e