FR2776348A1 - Pad bearing for electric motor rotor - Google Patents

Abstract

The electric motor rotor pad bearing uses pads (40), each mounted to oscillate on an external surface of the bearing support. The pad bearing supports a rotor with an internal surface of revolution. The external surface of the bearing support is fixed to provide an external sliding surface for each of the bearings with respect to the internal surface of revolution (23) of the rotor.

Description

SKATE BEARING WITH EXTERNAL SLIDING SURFACE

DESCRIPTION

  Field of the Invention The invention relates to all rotating machines, or rotating members of any mechanical device. It applies, in particular, to the rotor of an electric motor of different types, for example discord. Pumps of different types are

  also affected by this kind of bearing.

  Definition We equate to the term "rotor" any rotating part with respect to at least one fixed part in

any mechanical system.

  PRIOR ART AND PROBLEM POSED In rotary machines, the rotors or other rotary assemblies are mounted in rotation relative to fixed frames or housings, by means of rolling bearings, plain bearings, hydraulic bearings, etc. With reference to FIGS. 1A and 1B, the plain bearings are generally used in pairs to maintain and guide in rotation a rotor 1. In this case, the latter has two journals, or spindles

  shaft 2, placed at both ends of the rotor 1.

  Around each of these two journals 2, there is a shoe bearing mounted on a casing or a fixed frame of

the machine.

  In FIG. 1A, these pad bearings are symbolized by two pads 10 surrounding each pin 2, the number of pads per bearing being variable, but equal to or greater than three. Thus, the rotor 1 is maintained and guided in rotation about an axis of rotation 4 concentric with each of the two bearings. FIG. 1B shows in section, along the line A-A of FIG. 1A, one of these bearings mounted around a pin 2. Four pads 10 have been shown here. They are mounted oscillating inside a cage 14 of the bearing fixed on the frame or the casing of the machine. Each shoe 10 is mounted oscillating around a point 13 materialized by the top of an oscillation edge 12 placed outside of each shoe. This vertex 13 is in contact with the internal surface 15 of the cage 14. Thus, each shoe can oscillate around this vertex 13 and orient an internal sliding surface 11 opposite the external surface 3 of the journal 2. In fact, it may be advantageous to be able to benefit, during assembly and operation of the machine, from a certain clearance at the bearings. The oscillation of each shoe 10 around its top 3 allows this play. Thus, the rotor 1, by means of these two pins 2, can thus be centered so as to turn in perfect

balance during operation.

  The curvature of each internal surface 11 of the pads 10 corresponds approximately to the diameter of each pin 2, that is to say of the external surface

3 of these pins 2.

  In summary, the pads 10 have an internal sliding surface 11 and are held at

  inside a cage 14 which is exterior.

  This type of assembly has certain drawbacks which relate to the appearance and the mechanical behavior of the rotor 1. In fact, the bearings being on either side of the rotor, the length of the latter therefore includes the length of the two pins 2 which is added to the functional length of the rotor 1. This length, increased with respect to the useful length of the rotor 1, tends to cause vibration problems at lower speeds than if the rotor 1 were of shorter length. Well

  understood, the size of the rotor 1 is not minimized.

  In addition, the junction area of the journal 2 with the rotor 1 is weakened by the sudden change in diameter. The object of the invention is therefore to remedy these drawbacks by proposing another type of

skate bearing.

  SUMMARY OF THE INVENTION For this purpose, the main object of the invention is a shoe bearing intended to support in rotation a rotor having at least one internal surface of revolution, the bearing having shoes mounted to oscillate on an external surface d '' a bearing support which is fixed, so as to present an external sliding surface of each of the facing pads and of a shape corresponding to the internal surface

of revolution of the rotor.

  In the preferred embodiment of the bearing, the bearing support has a fixed and cylindrical journal, and the pads have an edge having a vertex in contact with the internal surface of the support

landing.

  In the case where the internal surface of revolution of the rotor is cylindrical, the external surface of sliding of the pads is a portion of surface

cylindrical convex.

  List of Figures The invention and its various technical characteristics will be better understood on

  reading of the following description, accompanied by

  several figures representing respectively: - Figures 1A and 1B, the mounting of a rotor with two bearings according to the prior art, already described; - Figures 2A and 2B, the mounting of a rotor with two bearings according to the invention; - Figure 3, in longitudinal section, the mounting of the bearing according to the invention in an application thereof to a propeller rotor

hydraulic with two jets.

  Detailed description of a realization of

  the invention FIG. 2A shows, in longitudinal section, a rotor mounted in rotation by means of two bearings according to the invention and driving a shaft

motor 28.

  The rotor 21 is therefore mounted by means of two bearings located inside two cavities 22 of the rotor 21 and located on the axis of rotation 24, at the two ends of the rotor 21. These two cavities 22 are cylindrical and their surface internal of revolution 23 which is cylindrical and of a diameter corresponding to the external diameter of the pads 20 of the bearing. The latter therefore consists, on the one hand, of these pads 20 and, on the other hand, of a fixed support shown diagrammatically by a pin 31 fixed on a support frame 30, on each side of the rotor 21. The external surface 35 the pin 31 is preferably of revolution, for example cylindrical and receives a number of pads 20, mounted oscillating according to the same principle as that described in Figure lB relating to the prior art. Through

however, the roles are reversed.

  Indeed, Figure 2B shows, in partial cross section, one of these bearings equipped with its pads. A more precise distinction is made between the rotor 21 and its cylindrical internal surface 23. The external surface of a pad support 36 is mounted around the pin 31 and is intended to receive the top 27 of an edge 26 of each pad 20, so that each of them is mounted oscillating around this

pin 31.

  The external sliding surface 25 which constitutes the functional element of each shoe consists of a sector of concave cylindrical surface whose radius of curvature corresponds approximately to the diameter of the cylindrical internal surface 23 of the rotor 21 which is placed opposite . It is specified that this system for mounting the rotor 21 on the frame of a machine can be completed by two pad stops 40 placed at the end of each pin 31 facing surfaces.

rotor 21.

  Of course, the pads 20 are distributed angularly in a regular manner around the axis of rotation. The oscillation clearance around the tops 27 of the edges 26 is sufficient to allow mounting and self-adjustment or self-positioning of the

rotor 21 in operation.

  Figure 3 shows a preferred application of the bearing according to the invention. There are bearing pads 40 mounted on a pad holder 46, itself mounted around the pin 41 which is fixed. The rotor is referenced 51 and is, in this case, that of a discoid asynchronous electric motor which can be seen the electric rotor consisting of a block of electromagnetic sheets 52 and driving a paddle wheel. This asynchronous motor rotor must also be positioned axially. To this end, stop pads 50 are used which are mounted opposite the end of the journal 41, by means of a support for stop shoes 56 which is fixed to the journal 41. The radial surface 53 of such a thrust pad 50 faces the corresponding surface 54 of a lock nut

fixing 55 of the rotor.

  It is specified that, in this arrangement, the bearing pads 40 are positioned longitudinally by means of the support of stop pads 56 and the support of

bearing skids 46.

  It will be understood that in this way the length of the rotor 21 (see FIG. 2A) is not enlarged by the necessities of the rotational mounting, since the latter is located in internal cavities 22, and not on additional pins protruding from the surface of the rotor 21. Since the length of the rotor 21 is reduced, the first frequency of bending and vibration of the latter is greatly increased, this

  which is a considerable design advantage.

  It also allows the rotor to rotate at higher speeds. In addition, this type of rotor does not

has no weakened section.

  Such a type of shoe bearing makes it possible to rotate a rotor, or a hollow mobile, without overhang, since the rotor can be grasped at its

two ends.

  The bearing, according to the invention, having pads whose sliding surface is external while that of the pads of the bearings of the prior art is internal, the mass and the volume of these pads are therefore reduced and savings are achieved. level of material required for the blanks during manufacturing.

Claims (3)

  1. Pad bearing intended to support in rotation at least one rotor (21) having at least one internal surface of revolution (23), the bearing comprising pads (20) each mounted to oscillate on an external surface (35) of a bearing support (30) which is fixed, so as to present an external sliding surface (25) of each of the bearings (20) opposite   of the internal surface of revolution (23) of the rotor (21).   2. Skate bearing according to claim 1, in which the bearing support (30) has a pin (31) which is fixed and in that the skids (20) have an edge (26) having a top (27) placed in contact with the external surface (35) of the pin (31). 3. shoe bearing, in which the internal surface of revolution (23) of the rotor (21) being cylindrical, the external sliding surface (25) of each shoe (20) is a portion of surface cylindrical convex.