DE202008017587U1 - rotor - Google Patents

Abstract

Rotor for an electric motor with a mounted on a shaft (2) permanent magnet (1) and a surrounding sealed encapsulation, characterized in that the encapsulation on the outer surface of the permanent magnet (1) and on the shaft (2) is fixed in place, so that it rotates during operation of the rotor (10) with this.

Description

The The invention relates to a rotor for an electric motor with a mounted on a shaft permanent magnet and a this surrounding sealed enclosure as well as a method for the production of the encapsulated rotor.

A rotor of this kind is in the EP 1 601 085 B1 specified. This known rotor is surrounded by an encapsulation, which is installed in the interior of an engine stationary with respect to a stator unit. The rotor is rotatably mounted within the encapsulation in a rotary bearing with a shaft which is guided on one side of the encapsulation by a ring plate portion. Between the interior of the enclosure and the outside of the rotor magnet, which is coaxially mounted on the shaft, is given due to the rotation of the rotor relative to the encapsulating housing a free space, in particular with increasing operating time of the engine in a polluted or humid environment , such as As a fuel pump, corrosive substances can penetrate, affecting the life and functioning of the engine. This danger exists z. B. especially in sintered rare earth permanent magnets.

Other similar, arranged within a fixed encapsulation rotors also show the DE 100 34 302 A1 and the US 5,113,102 ,

It There are also plastic-bonded permanent magnets. These too offer against corrosion, for example in a fuel pump but no sufficient protection.

Of the Invention is based on the object, a rotor of the aforementioned Kind of ready to provide better protection of the permanent magnet against corrosive substances, as well as a method for his Specify production.

These The object is achieved with the features of claim 1. It is envisaged that the encapsulation on the outer surface of the permanent magnet and fixed on the shaft is fixed, so that In the operation of the rotor, it rotates with it.

With These measures, the permanent magnet of the rotor is sealed completed and protected against corrosive influences, the encapsulation being in very thin wall thickness can be performed on the Magnetkörpfer wear and can be applied without gaps. This at the same time has the advantage of a small distance of the magnet from the exciter windings of the stator, bringing high efficiency is reachable. In addition, the concentricity of the rotor by the encapsulation practically unaffected.

With the measures that encapsulate a capsule with a cylindrical envelope portion whose inner diameter adapted to the outer diameter of the permanent magnet, and sealed on both sides of the Hüllabschnitt brought to Has end parts, which provided with shaft passages and sealed with these are fixed on the shaft becomes one for the production and the function of advantageous construction reached.

A further advantageous embodiment of the structure and the Function is obtained by having at least one end piece as initially separated from the envelope section Cover-like part with a flat flat section at right angles to the shaft and an annular wall portion is formed, whose Outer diameter to the inner diameter or its inner diameter adapted to the outer diameter of the Hüllabschnitts is.

The Attachment and sealing of the encapsulation is thereby facilitated that the end parts in the area of the shaft passage have coaxial with the shaft directed through nozzles, the inner diameter of the outer diameter of the shaft is adjusted.

advantageous Embodiments for the seal are that all transitions between the shaft and the encapsulation pressed and / or sealed with a sealing compound or tightly welded and that any existing transitions between the end part and the envelope section with a sealing compound sealed or tightly welded or soldered are.

Further advantageous measures for the construction and the Function consist in that the encapsulation a wall of metal and further in that the wall of non-magnetizable Metal exists.

To The measures also contribute to an advantageous function in that the strength of the wall is at most 0.5 mm, preferably at most 0.2 mm.

advantageous Procedures for the manufacture of the rotor are in to claims 9 to 13 specified.

The measures that the permanent magnet, which has a cylindrical outer surface, and a capsule is provided with a cylindrical envelope portion, and that the open on one or both ends Hüllabschnitt, on or The open end faces by means of one or two end parts, which are provided with central shaft passages, is sealed, resulting in a simple, inexpensive installation.

there will be a cheap manufacturing with more reliable Seal achieved by making the Hüllabschnitt before it is then pushed onto the permanent magnet, or that the envelope portion is made by having a flat cut, one side of which at least the Circumference of the cylindrical lateral surface of the permanent magnet corresponds, is rolled up on this or in that the envelope section in the axial direction of the shaft on one side or both sides over the Lateral surface of the permanent magnet protruding frontally is positioned and that in the one or more protruding edges the sheath portion a respective end part with the permanent magnet in the axial direction directed away wall section tight is completed.

Advantageous are also the measures that the sheath section in the axial direction of the shaft on one side or both sides with the Lateral surface of the permanent magnet on the front side is positioned and that on one or both open end faces the Hüllabschnittes a final part with the permanent magnet sealed in the axial direction toward wall section becomes.

A advantageous use is that the rotor in a motor a fuel pump is used.

The Invention will be described below with reference to embodiments explained in more detail with reference to the drawings. Show it:

1 a schematic representation of a rotor with encapsulation before assembly in a perspective view,

2 a (partially sectioned) side view of a rotor with an encapsulation in a schematic representation and

3 a final part of the encapsulation in longitudinal section.

1 shows a rotor 10 with a permanent magnet 1 , coaxial (concentric) on a wave 2 is applied. Between the wave 2 and the actual magnetic body can be arranged a suitable, not particularly marked in the figure support structure. On the in the example shown circular cylindrical body of the permanent magnet 1 For example, which is formed of sintered rare earth material, for example, an encapsulation for protection against corrosive substances is applied, which is in particular also made moisture-proof.

The encapsulation consists of a capsule 3 with a to the peripheral surface of the permanent magnet 1 adapted envelope section 3.2 , which in the present case is thus also designed circular cylindrical and in the assembled state with its inner surface closely on the lateral surface of the permanent magnet 1 is applied. At the front is the encapsulation on both sides with end pieces 4 (see also 3 ), of which in the embodiment according to 1 one is designed as a separate closure cap and the other as on the capsule 3 is integrally formed molded bottom part.

In the final pieces 4 is concentric to the wave 2 one shaft feedthrough each 3.1 . 4.1 introduced, for better sealing on the shaft 2 are provided with nozzle-shaped, axially projecting lugs, which are directed away from the magnetic body in the embodiment shown. Alternatively, an alignment of the projecting approach to the magnet body in at least one shaft bushing 3.1 . 4.1 possible, for which purpose the magnetic body can be provided with an adapted concentric recess.

The capsule 3 can z. B. are produced as a deep-drawn part and consists, as well as the other parts of the encapsulation, of material of low wall thickness, z. B. a thickness of at most 0.5 mm, preferably at most 0.2 mm, in particular in the region of the Hüllabschnittes 3.2 , The material used is preferably non-magnetizable stainless steel; Alternatively, however, other metals or plastic come into consideration.

The capsule 3 is pushed onto the magnet body during manufacture, the inside diameter of the shell section 3.2 and the outer diameter of the permanent magnet 1 are advantageously coordinated so that a pressing pressure is required, so that there is a stable seat with virtually no gaps. Also, this design of the capsule 3 the smallest possible distance between the permanent magnet 1 and field winding to ensure high efficiency achieved and it results from the encapsulation no imbalance, so that a good concentricity is favored.

While in the embodiment according to 1 the separate, lid-shaped (left) end part 4 with one in the axial direction to the permanent magnet 1 directed circumferential outer wall section 4.2 is provided, which is located on a front side of the permanent magnet 1 located flat wall section 4.3 of the final part 4 connects (see also 3 ), in the embodiment according to 2 the separate (right) end part 4 ' with one axially of the permanent magnet 1 directed away circumferential outer wall section 4.2 ' Mistake. In this case, the outer diameter of the wall section 4.2 ' on the inner diameter of the cylindrical Hüllabschnittes 3.2 tuned, so that with the shaft passage 4.1 on the wave 2 guided graduation part 4 ' a little way into the envelope section 3.2 is inserted, which over the relevant end face of the permanent magnet 1 protrudes correspondingly far and z. B. with its free edge with the free edge of the closure part 4 ' concludes. Also on the other, present left side of the Hüllabschnittes 3.2 can be used in this way a separate end part, if there is no bottom part is formed.

A further embodiment variant is that the envelope section 3.2 is made of a flat blank and on the lateral surface of the permanent magnet 1 is rolled up tightly. It will be on both sides separate end caps 4 respectively. 4 ' set up accordingly 1 (respectively. 3 ) or 2 can be configured, including the envelope section 3.2 is suitably dimensioned in its length.

To seal the encapsulation, all transitions between the envelope section 3.2 and the final parts 4 . 4 ' as well as between the shaft 2 and the final parts 4 . 4 ' tightly sealed, for example, welded, soldered or pressed and / or with a sealant, for. B. paste or adhesive provided.

Because the encapsulation itself is on the shaft 2 is set, this can also be used as a support structure for the permanent magnet received in it 1 be used, so that an inner support structure between permanent magnet 1 and wave 2 can be omitted. As a result, a lighter, unbalance-free structure is favored.

The rotor 10 with a moisture-proof encapsulation of the structure described allows the use of electric motors equipped with it in a humid environment, for example in fuel pumps, in particular, rare earth permanent magnets can be used.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - EP 1601085 B1 [0002]
• DE 10034302 A1 [0003]
• US 5113102 [0003]

Claims (9)

Rotor for an electric motor with one on a shaft ( 2 ) permanent magnets ( 1 ) and a surrounding sealed encapsulation, characterized in that the encapsulation on the outer surface of the permanent magnet ( 1 ) and on the wave ( 2 ) is fixed in place, so that in the operation of the rotor ( 10 ) with this turns. Rotor according to claim 1, characterized in that the encapsulation is a capsule ( 3 ) with a cylindrical envelope section ( 3.2 ), whose inner diameter to the outer diameter of the permanent magnet ( 1 ), as well as on both sides of the envelope section ( 3.2 ) sealingly attached end parts ( 4 . 4 ' ), which with shaft passages ( 4.1 ) and sealed with these on the shaft ( 2 ). Rotor according to claim 2, characterized in that at least one end piece ( 4 . 4 ' ) than from the envelope section ( 3.2 ) first separate lid-like part with a flat, at right angles to the shaft ( 2 ) directed flat section ( 4.3 ) and an annular wall section ( 4.2 . 4.2 ' ) is formed whose outer diameter to the inner diameter or the inner diameter of the outer diameter of the Hüllabschnitts ( 3.2 ) is adjusted. Rotor according to claim 2 or 3, characterized in that the end parts ( 4 . 4 ' ) in the area of the shaft passage ( 4.1 ) coaxial with the shaft ( 2 ) have directed through nozzles whose inner diameter to the outer diameter of the shaft ( 2 ) is adjusted. Rotor according to one of the preceding claims, characterized in that all transitions between the shaft ( 2 ) and the encapsulation are pressed and / or sealed with a sealing compound or tightly welded and that any existing transitions between the final part and the envelope section ( 3.2 ) are sealed with a sealing compound or tightly welded or soldered. Rotor according to one of the preceding claims, characterized in that the encapsulation a wall of metal having. Rotor according to claim 6, characterized in that the wall is made of non-magnetisable metal. Rotor according to claim 7, characterized in that the thickness of the wall at most 0.5 mm, preferably at most 0.2 mm. Use of a rotor ( 10 ) according to one of claims 1 to 8, characterized in that it is used in an engine of a fuel pump.