초록 ▼

A seat belt control device is provided which comprises a drive motor connected to a seat belt for winding and unwinding the seat belt, a controller for controlling the drive motor, a wearing state sensor for detecting a wearing state of the seat belt, a vehicle speed sensor for detecting a vehicle s

A seat belt control device is provided which comprises a drive motor connected to a seat belt for winding and unwinding the seat belt, a controller for controlling the drive motor, a wearing state sensor for detecting a wearing state of the seat belt, a vehicle speed sensor for detecting a vehicle speed, and a deceleration sensor for detecting deceleration of a vehicle. The controller shorts electrodes of the drive motor when the seat belt is worn, the vehicle speed is higher than a first predetermined vehicle speed value, and an absolute value of the deceleration of the vehicle is lower than an absolute value of a first predetermined deceleration value. A seat belt control method is also provided.

대표청구항 ▼

1. A seat belt control device comprising:a drive motor connected to a seat belt for winding and unwinding the seat belt;a controller for controlling the drive motor;a wearing state sensor for detecting a wearing state of the seat belt;a vehicle speed sensor for detecting a vehicle speed; anda decele

1. A seat belt control device comprising:a drive motor connected to a seat belt for winding and unwinding the seat belt;a controller for controlling the drive motor;a wearing state sensor for detecting a wearing state of the seat belt;a vehicle speed sensor for detecting a vehicle speed; anda deceleration sensor for detecting deceleration of a vehicle;wherein the controller shorts electrodes of the drive motor when the seat belt is worn, the vehicle speed is higher than a first predetermined vehicle speed value, and an absolute value of the deceleration of the vehicle is lower than an absolute value of a first predetermined deceleration value. 2. A seat belt control device according to claim 1, wherein the controller cancels a short of the electrodes of the drive motor when the seat belt is worn and the vehicle speed is lower than or equal to the first predetermined vehicle speed value. 3. A seat belt control device according to claim 2, further comprising a tension sensor for detecting a tension of the seat belt, wherein the controller rotates the drive motor in the direction to wind the seat belt based on the tension of the seat belt after the short of the electrodes of the drive motor is canceled. 4. A seat belt control device according to claim 1, further comprising a backward movement sensor for detecting backward movement of the vehicle, wherein the controller cancels a short of the electrodes of the drive motor when the seat belt is worn, the vehicle speed is higher than the first predetermined vehicle speed value, and the direction of movement of the vehicle is backward. 5. A seat belt control device according to claim 4, further comprising a tension sensor for detecting a tension of the seat belt, wherein the controller rotates the drive motor in the direction to wind the seat belt based on the tension of the seat belt after the short of the electrodes of the drive motor is canceled. 6. A seat belt control device according to claim 4, wherein the controller rotates the drive motor in the direction to wind the seat belt when the seat belt is worn, the vehicle speed is higher than the first predetermined vehicle speed value, the direction of movement of the vehicle is backward, and the absolute value of deceleration of the vehicle is larger than the absolute value of the first predetermined deceleration value. 7. A seat belt control device according to claim 6, wherein the controller rotates the drive motor in the direction to unwind the seat belt after having rotated the drive motor in the direction to wind the seat belt for a predetermined time. 8. A seat belt control device according to claim 4, wherein the controller rotates the drive motor in the direction to wind the seat belt when the seat belt is worn, the vehicle speed is higher than the first predetermined vehicle speed value, the direction of movement of the vehicle is not backward, and the absolute value of deceleration of the vehicle is larger than a second predetermined deceleration value that is larger than the first predetermined deceleration value. 9. A seat belt control device according to claim 8, wherein the controller rotates the drive motor in the direction to unwind the seat belt after having rotated the drive motor in the direction to wind the seat belt for a predetermined time. 10. A seat belt control device comprising:a drive motor connected to a seat belt for winding and unwinding the seat belt;control means for controlling the drive motor;wearing state detecting means for detecting a wearing state of the seat belt;vehicle speed detecting means for detecting a vehicle speed; anddeceleration detecting means for detecting deceleration of a vehicle;the control means shorting electrodes of the drive motor when the seat belt is worn, the vehicle speed is higher than a first predetermined vehicle speed value, and an absolute value of the deceleration of the vehicle is lower than an absolute value of a first predetermined deceleration value. 11. A s eat belt control method comprising:detecting a wearing state of a seat belt;detecting a vehicle speed;detecting deceleration of a vehicle; andcontrolling a drive motor for winding and unwinding the seat belt based on the wearing state of the seat belt, the vehicle speed and the deceleration of the vehicle;wherein the controlling comprises shorting electrodes of the drive motor when the seat belt is worn, the vehicle speed is higher than a first predetermined vehicle speed value, and an absolute value of the deceleration of the vehicle is lower than an absolute value of a first predetermined deceleration value. 12. A seat belt control method according to claim 11, wherein the controlling further comprises canceling a short of the electrodes of the drive motor when the seat belt is worn and the vehicle speed is lower than or equal to the first predetermined vehicle speed value. 13. A seat belt control method according to claim 12, further comprising detecting a tension of the seat belt, wherein the controlling further comprises rotating the drive motor in the direction to wind the seat belt based on the tension of the seat belt after the short of the electrodes of the drive motor is canceled. 14. A seat belt control method according to claim 11, further comprising detecting backward movement of the vehicle, wherein the controlling further comprises canceling a short of the electrodes of the drive motor when the seat belt is worn, the vehicle speed is higher than the first predetermined vehicle speed value, and the direction of movement of the vehicle is backward. 15. A seat belt control method according to claim 14, further comprising detecting a tension of the seat belt, wherein the controlling further comprises rotating the drive motor in the direction to wind the seat belt based on the tension of the seat belt after the short of the electrodes of the drive motor is canceled. 16. A seat belt control method according to claim 14, wherein the controlling further comprises rotating the drive motor in the direction to wind the seat belt when the seat belt is worn, the vehicle speed is higher than the first predetermined vehicle speed value, the direction of movement of the vehicle is backward, and the absolute value of deceleration of the vehicle is larger than the absolute value of the first predetermined deceleration value. 17. A seat belt control method according to claim 16, wherein the controlling further comprises rotating the drive motor in the direction to unwind the seat belt after having rotated the drive motor in the direction to wind the seat belt for a predetermined time. 18. A seat belt control method according to claim 14, wherein the controlling further comprises rotating the drive motor in the direction to wind the seat belt when the seat belt is worn, the vehicle speed is higher than the first predetermined vehicle speed value, the direction of movement of the vehicle is not backward, and the absolute value of deceleration of the vehicle is larger than a second predetermined deceleration value that is larger than the first predetermined deceleration value. 19. A seat belt control method according to claim 18, wherein the controlling further comprises rotating the drive motor in the direction to unwind the seat belt after having rotated the drive motor in the direction to wind the seat belt for a predetermined time.