A system for detecting improper usage of a seatbelt of a vehicle includes a vehicle seat having a seat cushion and a seat back. A shoulder belt and a lap belt are intended to restrain an occupant sitting on the vehicle seat. The system includes a sensor module associated with the shoulder belt and the lap belt. The sensor module generates signals indicative of at least one parameter associated with the vehicle seat, the shoulder belt, and the lap belt when the occupant is sitting on the vehicle seat. The system also includes a controller that receives the signals indicative of the at least one parameter associated with the seat back, the shoulder belt, and the lap belt. The controller analyzes the received one or more signals, and determines whether the seatbelt is being used improperly by the occupant, based on the analysis.

A system for detecting improper usage of a seatbelt of a vehicle includes a vehicle seat having a seat cushion and a seat back. A shoulder belt and a lap belt are intended to restrain an occupant sitting on the vehicle seat. The system includes a sensor module associated with the shoulder belt and the lap belt. The sensor module generates signals indicative of at least one parameter associated with the vehicle seat, the shoulder belt, and the lap belt when the occupant is sitting on the vehicle seat. The system also includes a controller that receives the signals indicative of the at least one parameter associated with the seat back, the shoulder belt, and the lap belt. The controller analyzes the received one or more signals, and determines whether the seatbelt is being used improperly by the occupant, based on the analysis.

Embodiments described herein generally relate to a system for preventing the automatic retraction of a seatbelt. The system generally includes one or more processors, one or more host vehicle status sensors, one or more seatbelt braking mechanisms, and one or more memory modules. The one or more host vehicle status sensors output a status signal that a host vehicle is stopped an off-road driving condition. The one or more memory modules store logic that causes the one or more processors to determine that the host vehicle is in the off-road driving condition based on the status signal output by the one or more host vehicle status sensors and activate the one or more seatbelt braking mechanisms in response to detecting the host vehicle is in the off-road driving condition to prevent automatic retraction of the seatbelt.

Embodiments described herein generally relate to a system for preventing the automatic retraction of a seatbelt. The system generally includes one or more processors, one or more host vehicle status sensors, one or more seatbelt braking mechanisms, and one or more memory modules. The one or more host vehicle status sensors output a status signal that a host vehicle is stopped an off-road driving condition. The one or more memory modules store logic that causes the one or more processors to determine that the host vehicle is in the off-road driving condition based on the status signal output by the one or more host vehicle status sensors and activate the one or more seatbelt braking mechanisms in response to detecting the host vehicle is in the off-road driving condition to prevent automatic retraction of the seatbelt.

A system for detecting improper usage of a seatbelt of a vehicle includes a vehicle seat having a seat cushion and a seat back. A shoulder belt and a lap belt are intended to restrain an occupant sitting on the vehicle seat. The system includes a sensor module associated with the shoulder belt and the lap belt. The sensor module generates signals indicative of at least one parameter associated with the vehicle seat, the shoulder belt, and the lap belt when the occupant is sitting on the vehicle seat. The system also includes a controller that receives the signals indicative of the at least one parameter associated with the seat back, the shoulder belt, and the lap belt. The controller analyzes the received one or more signals, and determines whether the seatbelt is being used improperly by the occupant, based on the analysis.

A system and method for detecting seatbelt routing in a motor vehicle safety restraint system for a motor vehicle seat. The system includes a seatbelt buckle sensor, a seatbelt payout sensor, an occupancy sensor, an automatic locking retractor sensor and a control module. The method includes sensing a presence of a seatbelt latchplate in a seatbelt buckle. Further, the method includes sensing a seatbelt payout length. Additionally, the method includes comparing the seatbelt payout length to a first seatbelt payout length threshold. Moreover, the method includes determining seatbelt routing based on whether seatbelt latchplate is present in the seatbelt buckle and the seatbelt payout length is greater than the first seatbelt payout length threshold.

A system for detecting improper usage of a seatbelt of a vehicle includes a vehicle seat having a seat cushion and a seat back. A shoulder belt and a lap belt are intended to restrain an occupant sitting on the vehicle seat. The system includes a sensor module associated with the shoulder belt and the lap belt. The sensor module generates signals indicative of at least one parameter associated with the vehicle seat, the shoulder belt, and the lap belt when the occupant is sitting on the vehicle seat. The system also includes a controller that receives the signals indicative of the at least one parameter associated with the seat back, the shoulder belt, and the lap belt. The controller analyzes the received one or more signals, and determines whether the seatbelt is being used improperly by the occupant, based on the analysis.

A system and method for detecting seatbelt routing in a motor vehicle safety restraint system for a motor vehicle seat. The system includes a seatbelt buckle sensor, a seatbelt payout sensor, an occupancy sensor, an automatic locking retractor sensor and a control module. The method includes sensing a presence of a seatbelt latchplate in a seatbelt buckle. Further, the method includes sensing a seatbelt payout length. Additionally, the method includes comparing the seatbelt payout length to a first seatbelt payout length threshold. Moreover, the method includes determining seatbelt routing based on whether seatbelt latchplate is present in the seatbelt buckle and the seatbelt payout length is greater than the first seatbelt payout length threshold.

A seatbelt buckle device includes a buckle switch (40) having a switch substrate (42) and a slider part (50) which slides on the switch substrate (42) and a frame (20) which has a substantially U-shaped section and slidably holds an ejector (30) which operates synchronously with attachment/detachment of a tongue plate (1). The buckle switch (40) and the frame (20) are assembled integrally with each other as the a leg part (43) as a rear end of the switch substrate (42) is fixed to a side wall (22A) of the frame (20) through a switch substrate housing (45) and thus supported by the frame (20).

A system for securing a restraint system includes a retractor enclosing a spool, a sensor coupled to the spool, and a motor coupled to the spool and configured to rotate the spool about a spool rotation axis. The system also includes webbing configured to be wound and unwound from around the spool. An automatic locking retractor mode is enabled and disabled to selectively and automatically lock the retractor to prevent rotation of the spool when a predetermined length of the webbing is unwound from the spool.