초록 ▼

In a drive unit (10) of an adjuster (80) of a vehicle seat, in particular of a motor vehicle seat, having at least an electronically commutated motor (12) and a gear stage (14) provided on the output side of the motor (12), wherein the motor (12) has a stator (16) and at least one rotor (22, 24) rot

In a drive unit (10) of an adjuster (80) of a vehicle seat, in particular of a motor vehicle seat, having at least an electronically commutated motor (12) and a gear stage (14) provided on the output side of the motor (12), wherein the motor (12) has a stator (16) and at least one rotor (22, 24) rotating around an axis (A) and interacting magnetically with the stator (16), two rotors (22, 24) are provided which rotate in different directions, wherein the gear stage (14) bears directly at least one rotor (22, 24).

대표청구항 ▼

What is claimed is: 1. An adjuster for a vehicle seat, the adjuster comprising: a load-bearing gear including fitting parts that are cooperatively associated with one another so that there can be relative movement between the fitting parts; and a drive unit for causing relative movement between the

What is claimed is: 1. An adjuster for a vehicle seat, the adjuster comprising: a load-bearing gear including fitting parts that are cooperatively associated with one another so that there can be relative movement between the fitting parts; and a drive unit for causing relative movement between the fitting parts, the drive unit including (a) an electronically commutated motor including (1) a stator, (2) a first rotor configured for rotating in a first direction around an axis in response to the first rotor interacting magnetically with the stator, and (3) a second rotor configured for rotating in a second direction in response to the second rotor interacting magnetically with the stator, wherein the first direction is different from the second direction, and (b) a gear stage, wherein at least one rotor, which is selected from the group consisting of the first rotor and the second rotor, is (1) directly borne by the gear stage, and (2) borne, by way of the gear stage, by the load-bearing gear without any play. 2. The adjuster according to claim 1, wherein: the stator is configured for providing a magnetic field that rotates at a speed; the first rotor is configured so that the rotating of the first rotor in the first direction occurs at a different speed than the speed at which the magnetic field provided by the stator rotates; and the second rotor is configured so that the rotating of the second rotor in the second direction occurs at a different speed than the speed at which the magnetic field provided by the stator rotates. 3. The adjuster according to claim 1, wherein the first rotor has a total number of poles, and second rotor has a total number of poles that is different from the total number of poles of the first rotor. 4. The adjuster according to claim 1, wherein: the stator has a total number of poles; the first rotor has a total number of poles that is different from the total number of poles of the stator; and the second rotor has a total number of poles that is different from the total number of poles of the stator. 5. The adjuster according to claim 4, wherein: a ratio exists between the total number of poles of the first rotor and the total number of poles of the stator; the ratio between the total number of poles of the first rotor and the total number of poles of the stator is 2:3 or 3:2; a ratio exists between the total number of poles of the second rotor and the total number of poles of the stator; and the ratio between the total number of poles of the second rotor and the total number of poles of the stator is 2:3 or 3:2. 6. The adjuster according to claim 1, wherein: the first rotor carries a plurality of permanent magnets that are respective poles of the first rotor; and the second rotor carries a plurality of permanent magnets that are respective poles of the second rotor. 7. The adjuster according to claim 6, wherein: the plurality of permanent magnets carried by the first rotor includes at least one metal selected from the group consisting of rare earth metals; and the plurality of permanent magnets carried by the second rotor includes at least one metal selected from the group consisting of the rare earth metals. 8. The adjuster according to claim 1, wherein in a circumferential direction of the stator, exactly every second stator pole of the stator carries a respective coil. 9. The adjuster according to claim 1, wherein: the stator and the first rotor are arranged in a radial sequence or an axial sequence with respect the axis; and the stator and the second rotor are arranged in a radial sequence or an axial sequence with respect the axis. 10. The adjuster according to claim 9, wherein the drive unit includes at least one arrangement selected from the group consisting of: the first rotor being an inner rotor that is positioned radially inside the stator, and the second rotor being an outer rotor that is positioned radially outside the stator. 11. The adjuster according to claim 10, wherein the stator has a total number of poles, and the drive unit includes at least one relationship selected from the group consisting of: the inner rotor having a total number of poles that is smaller than the total number of poles of the stator by two; and the outer rotor having a total number of poles that is larger than the total number of poles of the stator by two. 12. The adjuster according to claim 1, wherein at least one component of the drive unit includes a hollow shaft, and the component is selected from the group consisting of the motor and the gear stage. 13. The adjuster according to claim 1, wherein the gear stage is a friction-wheel type of gear stage that includes hollow rollers, solid rollers, or any combination thereof. 14. The adjuster according to claim 1, wherein: the gear stage includes a sun gear, and the sun gear comprises a hollow shaft. 15. The adjuster according to claim 1, wherein: the first rotor is an inner rotor that is positioned radially inside the stator, and the inner rotor comprises a hollow shaft. 16. The adjuster according to claim 1, wherein: the first rotor is an inner rotor that is positioned radially inside the stator, and the second rotor is an outer rotor that is positioned radially outside the stator. 17. The adjuster according to claim 16, wherein: the stator has a total number of poles; the inner rotor has a total number of poles that is smaller than the total number of poles of the stator; and the outer rotor has a total number of poles that is larger than the total number of poles of the stator. 18. An adjuster for a vehicle seat, the adjuster comprising: a load-bearing gear including fitting parts that are cooperatively associated with one another so that there can be relative movement between the fitting parts; and a drive unit for causing relative movement between the fitting parts, the drive unit including (a) an electronically commutated motor including (1) a stator, and (2) a rotor configured for rotating around an axis in response to the rotor interacting magnetically with the stator; and (b) a gear stage, wherein the rotor is (1) borne by the gear stage, and (2) borne, by way of the gear stage, by the load-bearing gear without any play. 19. The adjuster according to claim 18, wherein at least one component of the drive unit includes a hollow shaft, and the component is selected from the group consisting of the motor and the gear stage. 20. The adjuster according to claim 18, wherein the gear stage is a friction-wheel type of gear stage that includes hollow rollers, solid rollers, or any combination thereof.