FR2769766A3 - Vibration-damped brushless electric motor e.g. for high-torque high-speed CD-ROM drive - Google Patents

Abstract

The motor comprises a base-plate (1) and an axially directed reed shaft (13) arranged on the base plate. A winding carrier (2) with an upper and lower end is arranged on the reed shaft, enclosing it, and carrying a winding (21). An upper pole disk arrangement (3) is arranged on the upper end of the winding carrier, which comprises a number of pole edges (31) arranged on the outer surface in a distance to each other. A lower pole disk arrangement (4) is provided on the lower end of the winding carrier, comprising a second number of pole edges (41) arranged on the outer surface in a distance to each other. Each of the lower pole edges has a surface area different to the surface area of each of the upper pole edges. A rotor (5) comprises a ring magnet (51) and a shaft (52) stored revolvingly in the axial reed shaft.

Description

Motor without reduced vibration manifold
The present invention relates to motors without a manifold which have reduced vibrations in operation.

 US Patent No. 4,891,567 in the names of Fujitani and others, filed July 12, 1988 and issued January 2, 1990, describes a DC motor without manifold having high performance, in which the upper cylinder head and the lower cylinder head of the stator do not do not coincide on the same plane, so that the detection points on the upper and lower pole plates respectively cannot be located on the same horizontal plane. Therefore, sudden vibrations and rotations occur during engine rotation. In addition, the engine torque is relatively small.

 The present invention aims to provide improved manifoldless motors which have high torque and high speed.

An object of the present invention is to provide motors without improved manifold which can reduce vibrations in operation in order to remedy this fact of an abrupt torque. Thus, the motors provided by the present invention can serve as high torque, high speed motors which are suitable for CD drives.
ROM.

 A motor without manifold in accordance with the present invention comprises a base plate comprising an axial tube mounted on it, a winding mount mounted around the axial tube and comprising a winding wound around it, an assembly of upper pole plate mounted on the upper end of the winding mount and having several upper pole faces spaced apart in an annular arrangement, a lower pole plate assembly mounted on the lower end of the winding mount and having several lower pole faces spaced apart in an arrangement annular, and a rotor comprising a rotary shaft, rotatably housed in the axial tube, and an annular magnet mounted therein.

 Each lower pole face has a different area than that of each upper pole face.

The upper pole face and the lower pole face have either different widths or different heights.

At drawings
FIG. 1 is an exploded perspective view of a motor without a manifold according to the present invention,
FIG. 2 is a sectional view of a first embodiment of a motor without a manifold according to the present invention and
Figure 3 is a sectional view of a second embodiment of a motor without manifold according to the present invention.

 Referring to the drawings and first of all in FIG. 1, a motor without a manifold according to the present invention generally comprises a base plate 1, a winding mount 2, an upper pole plate assembly 3 , a lower pole plate assembly 4 and a rotor 5. The base plate 1 is for example a circuit board comprising one or more necessary electrical control elements 11 mounted on them. The base plate 1 also has a hole 12 through which an axial tube 13 passes. The axial tube 13 comprises a bearing 14 mounted therein to receive in a rotary manner a rotating shaft 52 of the rotor 5 which comprises an annular magnet 51.

 The winding mount 2 has an upper end and a lower end respectively used for mounting on it the upper pole plate assembly 3 and the lower pole plate assembly 4. The winding mount 2 is mounted around the axial tube 13 and has a winding 21 wrapped around it.

 The upper pole plate assembly 3 can be made up of a stack of silicon steel sheets and the number of poles is chosen according to need. Similarly, the lower pole plate assembly 4 may consist of a stack of silicon steel sheets and the number of its poles is the same as that of the upper pole plate assembly 3. This upper pole plate assembly 3 has a number of pole faces 31 spaced apart in an annular arrangement and the lower pole plate assembly 4 also has a number of pole faces 41 spaced apart in an annular arrangement, each pole face 31 having an area which is not equal to that of the polar face 41. To obtain the unequal areas between the polar faces 31 and 41, these polar faces 31 and 41 can have either different heights H1, H2 (FIG. 2), or widths W1, W2 different (figure 3).

 It can be seen that since the pole faces 31 and 41 have different areas, the force of attraction between the upper pole plate assembly 3 and the annular magnet 51 is not equal to that between the assembly of lower pole plate 4 and the annular element 51, thereby creating a slight torque between them, thus remedying the sudden torque created during the change of polarity during the rotation of the motor. Consequently, the vibrations of the motor during rotation are reduced so as to allow the rotor to operate in a more stable manner.

Claims (3)

 1. Motor without manifold,  characterized in that it includes  a base plate (1) comprising an axial tube (13) mounted on it,  a winding mount (2) mounted around the axial tube and comprising a winding (21) wound around it, the winding mount having an upper end and a lower end,  an upper pole plate assembly (3) mounted on the upper end of the winding mount and comprising several upper pole faces (31) spaced apart in an annular arrangement,  a lower pole plate assembly (4) mounted on the lower end of the winding mount and comprising several lower pole faces (41) spaced apart in an annular arrangement, each lower pole face having an area different from that of each pole face superior,  and  a rotor comprising a rotary shaft, housed in a rotary manner in the axial tube, and an annular magnet mounted therein.  2. Motor without collector according to claim 1, characterized in that the upper pole face and the lower pole face have different widths.  3. Motor without collector according to claim 1, characterized in that the upper pole face and the lower pole face have different heights.