EP3350905A1

EP3350905A1 - Magnetic target

Info

Publication number: EP3350905A1
Application number: EP15813475.9A
Authority: EP
Inventors: Vincent Guibet; Chiyuan Chen
Original assignee: SC2N SAS
Current assignee: SC2N SAS
Priority date: 2015-09-14
Filing date: 2015-09-14
Publication date: 2018-07-25
Also published as: WO2017046457A1

Abstract

The invention relates to a magnetic target (7) in particular arranged so as to be mounted on a rotary component, this component being in particular a shaft of a rotor, this target comprising: - a support (10), - a magnet (11) pre-mounted on the support.

Description

Magnetic target

The present invention relates to a magnetic target in particular arranged to be mounted on a rotary component.

The aim of the invention is to improve this type of magnetic target.

The invention thus relates in particular to a magnetic target, in particular arranged to be mounted on a rotary component, this component notably being a shaft of a rotor, this target comprising:

a support,

- a magnet pre-mounted on the support.

For the purposes of the invention, the magnet is pre-mounted in the sense that the magnet is mounted on the support before the target is assembled on the rotating component.

Thanks to the invention, the assembly of the target on the rotary component is simple because the assembly can be done with a reduced number of steps.

Advantageously, the outer face of the support has a constant section.

The shape of the support can thus be simple and the support be easy to manufacture.

The support comprises, if desired, a cylindrical wall arranged to cooperate with the rotary component, and the magnet is placed against this cylindrical wall, outside the support.

The outer face of the cylindrical wall of the support has a circular section, and the outer face diameter is constant over the entire height of the support.

The support has a housing to allow its implementation on the rotary component.

This housing has a cylindrical shape of revolution. In a variant, the housing has an asymmetrical shape, in particular an oval shape or with at least one straight edge, for example being polygonal, in particular rectangular or square.

This makes it possible, especially when the magnet is pre-magnetized, to be able to index the target angularly with respect to the rotary component when it is assembled on this rotary component.

Preferably, the support has a thickness of less than 5 mm, in particular less than 2 mm, being preferably between 0.5 and 1 mm.

The target can thus be relatively compact, and the centrifugal forces applied to the target and in particular the magnet are reduced.

In an exemplary implementation of the invention, the support is made of steel, for example by stamping.

Preferably, the magnet is overmolded on the support.

If necessary, the magnet has a thickness less than

5mm, especially 2mm, even 1mm.

Advantageously, the magnet comprises an elastomer base, in particular NBR or HNBR.

If desired, the magnet has a ferrite or a rare earth. Preferably, the magnetization of the encoder is performed after mounting on the rotor to ensure good angular indexing between the poles of the magnet and the rotor.

Alternatively, the magnet is pre-magnetized, especially before being fixed on the rotating component.

Where appropriate, the support comprises a transverse face, in particular substantially flat, and the magnet extends at least partially on the transverse face of the support.

The invention also relates to a rotating electrical machine comprising a rotor provided with a shaft, a target as described above. The rotor shaft advantageously has a diameter of less than 15 mm, being in particular of about 8 mm.

If desired, the machine comprises a sensor, in particular Hall effect, arranged to cooperate with the magnetic target, in particular to generate a signal representative of the shaft, including the angular position of the shaft.

In an exemplary implementation of the invention, the machine is arranged so that the signal produced by means of the sensor and the target is used to control the injection of electric current into the winding of a stator. the machine according to the position of the rotor relative to the stator.

The machine is preferably arranged to compress air, in particular air intended to supply an internal combustion engine of a motor vehicle.

For example, the speed of rotation of the rotor is capable of reaching 50,000 revolutions per minute, in particular 70,000 revolutions per minute, for example 75,000 revolutions per minute.

If necessary, the machine is arranged so that the temperature around the target can reach 150 ° C.

The invention also relates to a turbo comprising the machine as mentioned above.

The invention will be better understood and other details, characteristics and advantages of the invention will become apparent on reading the following description given by way of non-limiting example with reference to the accompanying drawings in which:

- Figure 1 is a schematic and partial sectional view of a machine according to an embodiment of the invention. There is shown in Figure 1 a turbo 1 comprising an electric machine 2, turbo associated with an internal combustion engine of a motor vehicle.

The machine 2 is arranged to compress air intended to feed an internal combustion engine of a motor vehicle.

The turbo 1 comprises, for this purpose, a volute, not shown, for driving the air.

The rotating electrical machine 2 comprises a rotor 5 provided with a shaft 6 and a target 7 as described below.

The rotor shaft 6 has, in the example described, a diameter of about 8 mm.

The machine 2 comprises a Hall effect sensor 8 arranged to cooperate with the magnetic target 7 in order to generate a signal representative of the shaft 6, namely the angular position of the shaft 6.

The machine 2 is arranged so that the signal produced with the aid of the sensor 8 and the target 7 is used to control the injection of electrical current into the winding of a stator 9 of the machine as a function of the position of the machine. rotor 5 with respect to the stator 9.

The magnetic target 7 comprises:

a support 10,

a magnet 1 1 pre-mounted on the support 10.

The magnet 1 1 is pre-mounted in the sense that the magnet is mounted on the support 10 before the target is assembled on the rotating component.

The outer face 12 of the support 10 has a cylindrical shape.

The support 10 has a section of constant thickness.

The support comprises a cylindrical wall 13 arranged to cooperate with the rotary component 6, and the magnet 1 1 is placed against this cylindrical wall 13, outside the support. The outer face 12 of the cylindrical wall 13 of the support has a circular section, and the outer face diameter 12 is constant over the entire height of the support, height measured along the axis of rotation X of the shaft 6.

The support 10 comprises a housing 15 to allow its placement on the rotor 6.

This housing 15 has a cylindrical shape of revolution.

The support has a thickness of between 0.5 and 1 mm.

In an exemplary implementation of the invention, the support 10 is made of steel, for example by stamping.

The magnet 1 1 is overmolded on the support 10.

The magnet 1 1 has a thickness of between 2 mm and 2.5 mm, or even 1 mm.

The magnet comprises an elastomer base, in particular NBR or HNBR, and a ferrite or a rare earth.

The magnet 1 1 is pre-magnetized, in particular before being fixed on the rotary component.

The support 10 has a transverse face 17, in particular substantially flat, and the magnet extends entirely on the transverse face of the support.

Claims

1. Magnetic target (7), in particular designed to be mounted on a rotary component, this component notably being a shaft of a rotor, this target comprising:

a support (10),

a magnet (1 1) pre-mounted on the support.

2. Target according to the preceding claim, characterized in that the outer face (12) of the support has a constant section.

3. Target according to one of the preceding claims, characterized in that the fact that the support (10) comprises a cylindrical wall (13) arranged to cooperate with the rotary component, and the magnet is placed against this cylindrical wall, outside the support.

4. Target according to one of the preceding claims, the support having a housing (15) to allow its establishment on the rotary component.

5. Target according to one of the preceding claims, the support having a thickness of less than 5 mm, especially less than 2 mm, preferably between 0.5 and 1 mm.

6. Target according to one of the preceding claims, the support being made of steel.

7. Target according to one of the preceding claims, the magnet

(1 1) being overmolded on the support (10).

8. Target according to one of the preceding claims, the magnet having a thickness of less than 5mm, especially 2mm.

9. Target according to one of the preceding claims, the magnet comprising an elastomeric base, in particular NBR or HNBR.

10. Target according to one of the preceding claims, the support having a transverse face (17), in particular substantially flat, and the magnet extends at least partially on the transverse face of the support.

1 1. Rotating electric machine comprising a rotor (5) provided with a shaft, a target according to one of the preceding claims being mounted on the shaft.

12. Machine according to the preceding claim, comprising a sensor (8), in particular Hall effect, arranged to cooperate with the magnetic target, in particular to generate a signal representative of the shaft, including the angular position of the shaft.

13. Turbo comprising the machine according to one of claims 12 and 13.

14. Process for producing a machine according to one of claims 1 1 and 12, comprising the following step:

- The magnetization of the encoder is performed after mounting on the rotor.