The invention relates to a motor vehicle seat with a seat inclination adjustment device, with a first base element, a first seat frame element and a first actuator element, wherein the actuator element has a lower link arm connected to the base element via a lower link and movably arranged relative to the base element, an upper link arm connected to the lower link arm via a middle link and movably arranged relative to the lower link arm, wherein the upper link arm is connected to the seat frame element via an upper link and is arranged movably, and an inclination adjustment fitting with a first and a second fitting part, and wherein the inclination adjustment fitting is arranged on one of the links.

A method for setting an activation signal for activating at least one safety device of a vehicle. The method includes reading in a driving mode signal. In this case, the driving mode signal represents an item of information as to whether a manual driving mode or an at least partially automatic driving mode of the vehicle is set. The method also includes adapting at least one parameter of the activation signal while using the driving mode signal, to set the activation signal.

An attention calling system for a vehicle seat having one or more drive devices incorporated therein, the attention calling system including: a vehicle information acquisition unit that is configured to acquire vehicle information; and a control unit that is configured to determine based on the vehicle information whether it is an attention state in which seated person's attention should be called and controls at least one of the drive devices when it is determined that it is the attention state, wherein the control unit is configured to control the at least one drive device so that the seat or the predetermined part of the seat reciprocally moves in both positive and negative directions with reference to a current position at a speed higher than a predetermined speed, in correspondence to the attention state.

A vehicle seat control apparatus is equipped in a vehicle capable of travelling by automated driving and is configured to set a position and attitude of a seat of the vehicle to a driving position in low automated driving and to set the position and attitude of the seat to a relaxing position in high automated driving. The vehicle seat control apparatus includes an alertness detecting device configured to detect an alertness level of a driver seated on the seat, a computation control device configured to drive the seat driving device to perform an alerting operation if the alertness level is lower than a predetermined level when driving of the vehicle transitions from the high automated driving to the low automated driving, and a seat driving device configured to displace the seat at a higher speed than at a transition from the driving position to the relaxing position.

A vehicle safety seat for protecting a vehicle occupant from injury due to impact and airborne debris, in the event of a collision. The vehicle safety seat includes a seat bottom, a backrest, and a headrest, wherein the seat is secured to a frame. The frame is pivotally secured to the floor and frame of a vehicle, wherein the seat can recline immediately in advance of a collision for absorbing impact forces. The safety seat further includes telescoping shields that are retractably secured to the lateral sides of the seat bottom, backrest, and headrest. The shields are projected from the safety seat, creating a protective cocoon around the seat occupant prior to a collision. The seat is operably connected to one or more sensors that can detect an imminent collision between the vehicle and another object, wherein a pneumatic system deploys the shields and an electro-mechanical system reclines the seat.

The invention relates to methods and a system for operating electrical drive units of seat components in a motor vehicle, preferably in the case of a detected pre-crash situation, wherein an optimum target position of a passenger for an imminent crash case is moved to (S1, S2) depending on a current position of the passenger, wherein, for this purpose, a rule strategy for coordinating the adjustment of the seat components is determined (S3) in order to actuate at least two of the drive units at the same time or directly in succession such that the required power of the drive units is minimized (S4).

A car seat system for automatically displacing the movable components of the car seat. The car seat including sensors and a computing module to detect the measurements of a child placed in the car seat. The car seat system determines the current position of the movable components and displaces the movable components automatically based on the child's measurements or a desired amount. The car seat system automatically learns child's behaviors when the child is placed in the car seat. The car seat system learns schedules utilized by the child, routes taken by the driver of the car, and other data over a period of time. The behavioral, scheduling, routing, and other data obtained is stored by the car seat system and utilized to enhance the safety and comfortability of the child during a car ride. The car seat system also determines thickness of clothing worn by the child while placed in the car seat and adjusts the shoulder belts to accommodate for the clothing while providing a snug fit of the shoulder belts that fall within safety recommendations. The car seat also auto reclines to a desired angle and also rotates about itself to face the door. The car seat system includes an auto-incident detection mode. In this mode, the system detects an incident, such as an accident, hard braking, or another hazard, and automatically displaces the features in the car seat to make the car seat secure during the crash minimizing the effect of the incident on the child. The car seat also includes pretensioners and motors to release, pull back, and lock the car seat belts.

In a method for locking an adjustment device of a motor vehicle seat, a usage situation and/or danger situation is detected. In response to the detected usage situation and/or danger situation, a locking action for the adjustment device is selected, and the selected locking action for the adjustment device is executed.

A seat includes a seatback and an armrest supported by the seatback. The armrest is rotatable relative to the seatback to a deployed position. A swing bar is supported by the armrest and is rotatable relative to the armrest to a downward position. The swing bar in the downward position is elongated downwardly from the armrest. A drive belt is indexed with the armrest and the swing bar to rotate the swing bar to the downward position when the armrests rotates to the deployed position.

A method controls drive units for adjusting vehicle seat components. According to the method, a vehicle speed-dependent and crash-related nominal position or a vehicle speed-dependent and crash-related nominal position range are defined for at least one component. Starting from an actual position that is the same as the nominal position or from an actual position within the nominal position range, the actual position cannot be manually or automatically adjusted in the first instance or can only be adjusted in the nominal position range in the second instance, independently from the identification of a crash situation. Starting from an actual position that is different from the nominal position or outside the nominal position range, the actual position is automatically adjusted towards the nominal position or the nominal position range, preferably according to the identified defined situations, independently from the identification of a crash situation.