Abstract: A seat occupant sensing apparatus includes a notched foam bottom seat cushion and a pressure-responsive sensor disposed between the bottom cushion and a frame of the seat. The notch is a narrow channel on the underside of the foam cushion that extends upward into the foam to limit and direct dispersion of occupant loading through the cushion. A rectangular notch smaller in dimension than a child seat frame is formed in a central region of the foam cushion, and a fluid-filled bladder or other force-responsive sensor mat is disposed substantially within the perimeter of the notch. The sensor will detect a normally seated occupant due to the relatively uniform seat load, but will not detect a cinched-down child seat because the notch limits dispersion of child seat loading in the direction of the sensor.
Type:
Grant
Filed:
November 16, 2006
Date of Patent:
August 5, 2008
Assignee:
Delphi Technologies, Inc.
Inventors:
Kevin J. Hawes, Duane D. Fortune, Morgan D. Murphy
Abstract: A child restraint system for transporting a child within an automotive vehicle includes a weight sensor for determining the weight of the child and compares the child's weight to a recommended weight range. The weight sensor is disposed within a cushion that lines a shell and provides an electrical signal to a control unit. The control unit processes the electrical signal and provides an alert signal when the weight is not within the recommended range. Also, the child restraint system may include a second sensor for sensing a condition that depends upon the child's weight such as directional orientation or angular orientation of the child restraint system, or location or tension of a vehicle seat belt or tether that secures the child restraint system within the vehicle, or the location or tension of a harness for restraining the child occupant within the child restraint system.
Type:
Grant
Filed:
June 6, 2005
Date of Patent:
June 10, 2008
Assignee:
Delphi Technologies, Inc.
Inventors:
James F. Patterson, Stuart S. Sullivan, Duane D. Fortune, William W. Fultz, Kevin D. Kincaid
Abstract: An impact sensing apparatus includes a laterally extending air channel within a block of foam or other crushable medium disposed between a bumper fascia and a rigid bumper frame element, and one or more airflow sensors for detecting airflow within the air channel. The air channel may be defined by a flexible hollow tube embedded within the crushable medium or by a molded-in air cavity in cases where the crushable medium is formed by molding. The measured airflow provides a measure of crush rate, and two or more airflow sensors may be distributed within the air channel to optimize impact detection response time and to identify the impact location.
Abstract: A flexible drive member attachment is connected to a flexible drive member by a yoke having side walls connected by a bridge wall that has a stud connecting the attachment to a driven member. A coupler is disposed between the side walls and attached to the bridge wall. The coupler has teeth that extend through respective windows of the flexible drive member. An outer shoe engages each side wall of the yoke. Each outer shoe has a forward flange engaging the bridge wall and a rearward flange that extends through a rearward slot of the associated side wall. Each rearward flange has fingers that extend behind the flexible drive member and through spaces between adjacent teeth of the coupler and into sockets of the other shoe. The flexible drive member may be a drive chain or a drive belt having spaced windows.
Type:
Grant
Filed:
February 23, 2004
Date of Patent:
November 20, 2007
Assignee:
Delphi Technologies, Inc.
Inventors:
John R. Rice, Michael A. Ciavaglia, Joseph M. Johnson
Abstract: An over-molded beaded driving cable which has an inner core, a plurality of inner core structures. An outer jacket may encompass the inner core and inner core structures. Each of a plurality of outer beads concentrically surrounds an inner core structure. The outer beads are over-molded in this position, forming an interlocking inner core structure and outer bead configuration capable of high load and high flexible performance. An end fitting placed at each end portion of the inner core provides for a driving cable assembly with a variety of end fitting configurations, including a closed loop connection, for automotive and non-automotive applications. Alternatively, the over-molded beaded driving cable has a plurality of clamps and/or pins surrounded by the outer beads respectively. The cables may also be provided with seamless connection structure for forming closed loops.