Patent application number | Description | Published |
20120025501 | CURTAIN AIRBAG FOR A MOTOR VEHICLE - An inflatable curtain airbag is secured along an upper edge to a body structure of the motor vehicle and deploys downwardly when inflated. Prior to deployment, the lower edge of the curtain is not tethered to the vehicle body. When nearly or fully deployed, the lower edge of the curtain engages an adjacent part of the motor vehicle so as to form a virtual tether therebetween resisting relative movement between the curtain and the adjacent part. | 02-02-2012 |
20120139216 | CURTAIN AIRBAG ASSEMBLY FOR A MOTOR VEHICLE - An airbag assembly for a motor vehicle includes an inflator and a curtain airbag securable to a body structure of the motor vehicle. The airbag includes two or more deployment tubes and two or more inflatable chambers. Vents connect the deployment chambers with the inflatable chambers. Gasses from the inflator pass first into the deployment tubes to rapidly inflate them to vertically extending positions and draw the airbag over a window opening. The gasses then pass through the vents into the inflatable chambers to complete the deployment of the curtain airbag. The rapid inflation and deployment of the deployment chambers provides cushioning for an occupant's head early in a crash event, followed by the inflation of the inflatable chambers to provide additional head protection and increasing the resistance of the curtain airbag to ejection through the underlying window apertures. | 06-07-2012 |
20120139217 | CURTAIN AIRBAG ASSEMBLY FOR A MOTOR VEHICLE - A curtain airbag assembly for occupant protection in a motor vehicle includes a forward airbag stored above a forward window for deployment to a position wherein a main body portion overlies a forward window and a rear end portion extending rearward from the main body overlies a post separating the windows, such as a B-post or C-post, and a rear airbag stored above a rear window for deployment to a position wherein a main body portion overlies the rear window and a forward end portion extends rearward from the main body and overlies the post. The forward and rear end portions vertically overlap one another where they overlie the post, and each has an end lip defining a recess in an outer face of the respective airbag, the end lips shaped to engage with the post. | 06-07-2012 |
20130249199 | Curtain Airbag for a Motor Vehicle - An inflatable curtain airbag is secured along an upper edge to a body structure of the motor vehicle and deploys downwardly when inflated. Prior to deployment, the lower edge of the curtain is not tethered to the vehicle body. When nearly or fully deployed, the lower edge of the curtain engages an adjacent part of the motor vehicle so as to form a virtual tether therebetween resisting relative movement between the curtain and the adjacent part. | 09-26-2013 |
20150158451 | CURTAIN AIRBAG WITH SEAT ENGAGING FEATURE - A curtain airbag assembly for a vehicle has an airbag with a receiving portion shaped to clamp onto or around a portion of a seat of the vehicle when the airbag is deployed to assist in securing the airbag in place. The receiving portion is formed by supplementary material adjacent to a seam between inner and outer panels of the airbag, the supplementary material forming a clamping pocket which grips an outboard portion of the seat upon inflation of the airbag. Alternatively, the receiving portion is formed by first and second overlapping portions of the airbag which overlap one another when the airbag is deflated, the overlapping portions forming a clamping pocket configured to grip the outboard portion of the seat upon inflation of the airbag. | 06-11-2015 |
Patent application number | Description | Published |
20140135981 | ROBOTIC STRONG ARM - A robotic strong arm (RSA) for assisting in the transfer of a person from a first surface to a second surface, comprising: first and second members, wherein in each member comprises a prismatic joint having first and second ends and comprising inner and outer shells and a motor for powered linear movement of the outer shell with respect to the inner shell; a first powered joint interconnecting the second end of the first member with the first end of the second member, wherein the first powered joint provides movement of the second member with respect to the first member; wherein the first end of the first member is attached to a rotatable base and wherein the rotatable base is movably attached for powered movement along a component associated with, and extending around at least a portion of a periphery about, the first surface; and a computer controller for controlling movements of the outer shells, first powered joint, rotation of the rotatable base and movement of the rotatable base and RSA along the component. | 05-15-2014 |
20150209207 | SEATING FUNCTION MONITORING AND COACHING SYSTEM - A wheelchair system includes a wheelchair including at least one adjustable seating function, a sensor system in operative connection with the wheelchair which includes at least one sensor to measure or sense a position of the at least one adjustable seating function, a processor system in operative connection with the sensor system, a memory system in operative connection with the processor system, and a communication system in operative connection with the processor system. The communication system is, for example, adapted to wirelessly communicate with one or more remote systems (that is, a system remote from the wheelchair; for example a remote system or server, which may include a database). The wheelchair system further includes a user interface system in operative connection with the processor system and at least one application stored on the memory system and executable by the processor system. The at least one application is executable to provide information via the user interface system to a user of the wheelchair related to data from the sensor system to assist the user to adjust the position of at least one adjustable seating in accordance with parameters stored in the memory system. | 07-30-2015 |