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FOIL BEARING

20220290716 ยท 2022-09-15

    Inventors

    Cpc classification

    International classification

    Abstract

    The invention relates to a foil bearing (10) having at least one foil (16, 18) which is arranged and fixed in place inside a bearing bore (14) of a bearing support (12). The bearing support (12) is made of aluminum or an aluminum alloy, wherein the surface of the bearing bore (14) is provided at least in one contact region (20) of the at least one foil (16, 18) with a hard material layer (26). The bearing support (12) can be produced in a simple and cost-effective manner, has a low weight and a good thermal conductivity.

    Claims

    1. A foil bearing (10) having at least one foil (16, 18), which is arranged within a bearing bore (14) of a bearing receptacle (12) and fixed therein, characterized in that the bearing receptacle (12) is produced from aluminum or an aluminum alloy.

    2. The foil bearing as claimed in claim 1, characterized in that a surface of the bearing bore (14) of the bearing receptacle (12) is provided with a hard-material layer (26) at least in a region (20) of contact with the at least one foil (16, 18).

    3. The foil bearing as claimed in claim 2, characterized in that the hard-material layer (26) is formed by anodizing the surface of the bearing bore (14) of the bearing receptacle (12).

    4. The foil bearing as claimed in claim 3, characterized in that the hard-material layer (26) is formed from titanium nitrite.

    5. The foil bearing as claimed in claim 1, characterized in that the bearing receptacle (12) is part of a housing part (28) of a compressor.

    6. The foil bearing as claimed in claim 1, characterized in that the bearing receptacle (12) is in the form of a bearing sleeve.

    7. The foil bearing as claimed in claim lone of the preceding claims, characterized in that the foil bearing (10) comprises at least one top foil (18) and one bottom foil (16), which is arranged between the top foil (18) and the bearing bore (14), and in that wherein at least the bottom foil (16) bears against the bearing bore (14).

    8. The foil bearing as claimed in claim 1, characterized in that the bearing receptacle (12) is produced from aluminum.

    9. The foil bearing as claimed in claim 1, characterized in that the bearing receptacle (12) is produced from aluminum alloy.

    10. The foil bearing as claimed in claim 4, characterized in that the bearing receptacle (12) is part of a housing part (28) of a compressor.

    11. The foil bearing as claimed in claim 4, characterized in that the bearing receptacle (12) is in the form of a bearing sleeve.

    12. The foil bearing as claimed in claim 11, characterized in that the foil bearing (10) comprises at least one top foil (18) and one bottom foil (16), which is arranged between the top foil (18) and the bearing bore (14), wherein at least the bottom foil (16) bears against the bearing bore (14).

    Description

    BRIEF DESCRIPTION OF THE DRAWINGS

    [0006] Further advantages, features and details of the invention will become apparent from the following description, which describes an exemplary embodiment in detail with reference to the drawing.

    [0007] An exemplary embodiment of the invention is illustrated in the drawing and explained in more detail in the following description.

    [0008] FIG. 1 shows a cross section of a foil bearing having a bearing receptacle and foils arranged therein,

    [0009] FIG. 2 shows an enlarged illustration of a detail II of the bearing receptacle and

    [0010] FIG. 3 shows a detail of a housing of a compressor with a foil bearing arranged therein.

    DETAILED DESCRIPTION

    [0011] FIGS. 1 to 3 illustrate a foil bearing 10 having a bearing receptacle 12, which may be in the form of a bearing sleeve. The bearing sleeve 12 has substantially the shape of a straight, hollow circular cylinder having a bearing bore 14 and a longitudinal axis 15. Two foils 16, 18 of the foil bearing 10 are arranged inside the bearing bore 14, for example. The foil 16 is also referred to as beam foil, bump foil or bottom foil and is arranged between the bearing bore 14 and the foil 18, which is also referred to as top foil or upper foil. The foil 16 is in the form of a spring foil, for example, and bears against the bearing bore 14 at least in certain regions in contact regions 20. In FIG. 1, the foils 16, 18 are illustrated only in a part of their circumference and extend over the entire circumference of the bearing bore 14. The foil bearing 10 serves for the rotatable mounting of a shaft 22, which bears against the foil 18. When the shaft 22 is rotating, a gas cushion forms between the shaft 22 and the foil 18.

    [0012] The foils 16, 18 are in the form of metal foils and may be produced by punching. A third foil may also be arranged between the two foils 16, 18. The foils 16, 18 are fixed in the bearing bore 14 of the bearing receptacle 12 in a way which is not illustrated in more detail. For example, the foils 16, 18 may be inserted by way of their circumferentially pointing edges resulting in a T-shaped retention or into slits or openings in the inner lining of the bearing bore 14.

    [0013] The bearing receptacle 12 is produced from aluminum or an aluminum alloy, the bearing bore 14 being processed by a machining method or another method, such as erosion for example, in order to obtain sufficient accuracy in terms of shape and dimensions. In order to ensure sufficient wear resistance of the bearing receptacle 12, the surface of the bearing bore 14 is provided with a hard-material layer 26.

    [0014] The hard-material layer 26 may be formed for example by anodizing the surface of the bearing bore 14. This is an electrolytic method in which there is formed from the aluminum or the aluminum alloy an oxide layer that has higher wear resistance than the aluminum or the aluminum alloy. As an alternative, the hard-material layer 26 may also be formed by applying a coating of titanium nitrite TiN to the surface of the bearing bore 14.

    [0015] Preferably, after the hard-material layer 26 has been applied, processing of the bearing bore 14 is effected again in order to also obtain the required accuracy in terms of shape and dimensions with the hard-material layer 26.

    [0016] The shaft, which is rotatably mounted in the foil bearing 10, belongs for example to a rotor (which is likewise not illustrated) of a turbomachine. The turbomachine is for example part of an air supply unit in a fuel cell system. In the fuel cell system, the turbomachine is designed as a compressor, for example. The compressor comprises a compressor wheel 23, which is an advantageous constituent part of the rotor.

    [0017] The bearing receptacle 12 may, as stated above, be a separate component in the form of a bearing sleeve, which is inserted in a housing part of the compressor. As an alternative, the bearing receptacle 12 may also be part of a housing part 28 of the compressor, that is to say may be formed in one piece with the housing part 28. In this respect, the bearing bore 14, which comprises the hard-material layer 26 as explained above, is introduced in the housing part 24.

    [0018] By virtue of the bearing receptacle 12, effective dissipation of heat produced in the foil bearing 10 is enabled on account of the good thermal conductivity of the aluminum or the aluminum alloy.