Abstract: The improved steering apparatus is an invention that increases vehicular operational safety by providing means for a vehicle operator to control various vehicle functions and accessories while keeping both hands on the steering apparatus. The apparatus also automatically provides for the display of a variety of driver relevant information including automatic live video (160) feed of blind spots, rear vehicle cabin area, and road sign information (320), by displaying the information on the steering apparatus mounted video screen. The apparatus includes a built-in speaker (170) and is controlled by either voice commands or by a touching of the touch activatable video display screen (160).

Abstract: An airbag inflator that contains a first quantity of inflation gas. This gas may be housed in a chamber. A quantity of liquid fuel may also be added. This fuel may be housed within a liquid fuel chamber. The quantity of inflation gas may operate to pressurize the liquid fuel chamber. A piezo-valve is also added. The piezo-valve seals the liquid fuel chamber. The piezo-valve is capable of variably releasing liquid fuel from the chamber such that when this secondary liquid is ignited, the airbag inflation gas can be augmented as desired.

Abstract: An inflator that includes a quantity of gas generant housed within a chamber. A liquid and a piston are also housed within another chamber. This chamber is sealed by a burst disk. The piston includes an opening. During deployment of the inflator, the burst disk is ruptured and the piston moves towards the distal end of the inflator. The movement of the piston hydraulically expels the liquid through the opening in the piston such that the liquid cools and contacts the gas formed by combustion of the gas generant.

Abstract: A stored gas inflator having a chamber. The chamber houses a quantity of stored gas. The chamber is sealed by a burst disk. A frangible support is also added. The frangible support is designed to support the burst disk. The frangible support breaks during deployment of the inflator. The inflator is further constructed such that when the temperature of the inflator exceeds a threshold level, the gas is vented out of the chamber through the frangible member.

Abstract: An inflator that includes a quantity of gas generant housed within a chamber. A liquid and a piston are also housed within another chamber. This chamber is sealed by a burst disk. The piston includes an opening. During deployment of the inflator, the burst disk is ruptured and the piston moves towards the distal end of the inflator. The movement of the piston hydraulically expels the liquid through the opening in the piston such that the liquid cools and contacts the gas formed by combustion of the gas generant.

Abstract: An airbag inflator that contains a first quantity of inflation gas. This gas may be housed in a chamber. A quantity of liquid fuel may also be added. This fuel may be housed within a liquid fuel chamber. The quantity of inflation gas may operate to pressurize the liquid fuel chamber. A piezo-valve is also added. The piezo-valve seals the liquid fuel chamber. The piezo-valve is capable of variably releasing liquid fuel from the chamber such that when this secondary liquid is ignited, the airbag inflation gas can be augmented as desired.

Abstract: A stored gas inflator having a chamber. The chamber houses a quantity of stored gas. The chamber is sealed by a burst disk. A frangible support is also added. The frangible support is designed to support the burst disk. The frangible support breaks during deployment of the inflator. The inflator is further constructed such that when the temperature of the inflator exceeds a threshold level, the gas is vented out of the chamber through the frangible member.

Abstract: The improved steering apparatus is an invention that increases vehicular operational safety by providing means for a vehicle operator to control various vehicle functions and accessories while keeping both hands on the steering apparatus. The apparatus also automatically provides for the display of a variety of driver relevant information including automatic live video (160) feed of blind spots, rear vehicle cabin area, and road sign information (320), by displaying the information on the steering apparatus mounted video screen. The apparatus includes a built-in speaker (170) and is controlled by either voice commands or by a touching of the touch activatable video display screen (160).

Abstract: Disclosed are embodiments of an airbag tether release mechanism for use with airbag inflation systems. In one embodiment, the mechanism includes an initiator positioned within a housing. The initiator is configured such that it provides an inherent seal to prevent the external release of pyrotechnic residues upon deployment. The device may also include a cutter operatively connected with the initiator such that deployment of the initiator actuates the cutter and a tether restraint structure configured to secure a tether until the tether is released by actuation of the cutter.

Abstract: The present invention relates to a new type of safety system that is designed to protect a vehicle occupant during a rollover crash. The safety system will generally include a vehicle seat and a sensor. The sensor is designed to sense the occurrence of a rollover crash. The safety system also includes a support member that has an undeployed mode and a deployed mode. The support member converts from the undeployed mode into the deployed mode when a signal is received from the sensor indicating a rollover. The support member will generally be housed within the vehicle seat when the support member is in the undeployed mode. The support member is also anchored to the floor pan of the vehicle. When the support member is deployed into the deployed mode, the support member is disposed in effective engagement with the vehicle roof to limit movement of the roof toward the vehicle seat during rollover conditions.

Abstract: A novel active hood system is disclosed. The active hood system is designed such that in the event of a pedestrian/vehicle accident, the active hood system will soften the impact between the pedestrian and the vehicle by moving the vehicle hood into an elevated position. In some embodiments, the active hood system is constructed such that during a pedestrian/vehicle collision, the active hood system will raise the vehicle hood into an elevated position by having the hood move through a first travel distance and a second travel distance. The active hood system includes an actuator and a hinge. The actuator may be attached to the hinge. The actuator is designed such that if it is deployed, the actuator will raise the hood into the elevated position. Additional embodiments may also be made in which the actuator is vented during deployment. A dampener is also added to the active hood system. The dampener is designed to dampen the movement of the hood as the hood is moved through the second travel distance.

Abstract: A severing apparatus for use with a battery cable is provided. The severing apparatus includes a housing that holds an initiator and a severing element. The battery cable is located through a lateral bore formed in the housing. The severing element is disposed on one side of the battery cable. A deformable blocker can be disposed on the opposite side of the battery cable. When it is desired to sever the battery cable and thereby discontinue the supplying of electrical power by the battery, such as when a predetermined vehicle collision occurs, the initiator is triggered and causes the severing element to move. Movement of the severing element removes a severed battery cable segment. Movement of the severing element and the severed battery cable segment is stopped using the blocker when present. The blocker can be part of a shell that surrounds the housing. Alternatively, the blocker can be held in the housing.

Abstract: A severing apparatus for use with a battery cable is provided. The severing apparatus includes a housing that holds an initiator and a severing element. The battery cable is located through a lateral bore formed in the housing. The severing element is disposed on one side of the battery cable. A deformable blocker can be disposed on the opposite side of the battery cable. When it is desired to sever the battery cable and thereby discontinue the supplying of electrical power by the battery, such as when a predetermined vehicle collision occurs, the initiator is triggered and causes the severing element to move. Movement of the severing element removes a severed battery cable segment. Movement of the severing element and the severed battery cable segment is stopped using the blocker when present. The blocker can be part of a shell that surrounds the housing. Alternatively, the blocker can be held in the housing.

Abstract: A control assembly for use in regulating movement of a vehicle seat back is provided. The control assembly uses damping fluid to regulate the degree of damping applied to the seat back. The control assembly includes one or more initiator assemblies. A selected one or more of them can be activated when a front and/or rear end collision occurs. When an initiator assembly is activated, a transfer member changes between closed and open states to regulate a path for damping fluid. The control assembly also includes a piston head having first and second sides. Movement of the damping fluid occurs relative to these two sides. The piston head can include at least one bore, which functions as an additional path for damping fluid. The control assembly preferably also includes a temperature compensation assembly to accommodate temperature changes in the damping fluid.

Abstract: A dual initiator inflator for selective activation, depending upon detection of a low impact vehicle collision or a high impact vehicle collision, is provided for use with an air bag in a vehicle. The inflator can be configured to function at any one of a number of vehicle locations, including a driver side inflator and a passenger side inflator. The inflator includes first and second initiators and first and second propellants. When a low impact vehicle collision is detected, the first initiator is triggered to ignite the first propellant. Essentially all inflation gases that are received in the air bag are due to products of combustion from the first propellant and stored gas contained in the inflator housing. After a predetermined time delay, the second propellant is ignited by the second initiator so that no combustible propellant remains after inflator usage.

Abstract: A hybrid inflator that includes a solid propellant and a pressurized medium comprising oxygen and at least one inert gas is provided. The solid propellant can be fuel-rich in that without excess oxygen it generates significant amounts of CO and H2. The at least one inert gas is contained in an inflator housing and the amount thereof is greater, on a molar basis, than the oxygen. The propellant has acceptable long-term stability in that such propellant does not ignite when exposed to a temperature of 107° C. for a period of 400 hours.

Abstract: An initiator assembly for use with an inflator in a vehicle is provided. The initiator assembly includes an integral, one-piece insert member that is injection molded with insulating material to an initiator. The insert member suitably engages an initiator adapter for properly holding the initiator assembly in place relative to the inflator housing both before and after the initiator assembly is ignited. The insert member can include a number of different embodiments, each of which is characterized by the relatively short length of the shoulder that engages the initiator adapter.

Abstract: A hybrid inflator comprises an inflator housing, a pressurized medium contained within the inflator housing, and a propellant contained within the inflator housing ranging from about 0.5 grams to about 20 grams. The pressurized medium is released from the inflator housing and the propellant is ignited to produce propellant gases.

Abstract: Hybrid inflators for an inflatable safety system are disclosed. In one embodiment, the hybrid inflator uses a dual function initiator in that the combustion products from the initiator both ignite the propellant by direct contact therewith and propel a projectile through a outlet closure disk to release the stored pressurized medium. In another embodiment, the hardware configuration of the hybrid inflator allows the propellant to be loaded into the inflator after all hardware connections proximate the propellant, which require a weld, have in fact been welded. In another embodiment, the main inflator outlet closure disk is disposed at substantially a mid portion of the inflator. In another embodiment, the propellant gases are required to flow from the combustion chamber and into the stored gas housing prior to exiting the inflator, such by using a projectile to rupture the main inflator outlet closure disk and to thereafter seal the gas generator.

Abstract: A method for manufacturing a hybrid inflator for an inflatable safety system. The methodology principally relates to forming an annular stored gas housing from a single piece of tubing into a generally toroidal-like or torus-like outer wall configuration. The methodology may also include forming a central housing and a providing an appropriate propellant to at least a portion of the central housing. The central housing may then be disposed in a central opening extending through the stored gas housing and the central housing and stored gas housing may be appropriately interconnected, preferably to seal the inflator. An appropriate inflating medium may then provided to the inflator.