| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 280734000 | Responsive to vehicle condition | 67 |
| 20130062867 | INTERIOR TRIM PART - An interior trim part for a bodywork component has a lighting system with a first component that generates a light signal and a second component that outputs the light signal toward the passenger compartment of the motor vehicle. The bodywork component has a moveable region ( | 03-14-2013 |
| 20090236835 | AIRBAG WITH STOP LEAK MATERIAL - An inflatable cushion assembly for deployment in a vehicle. The assembly has an inflator, an inflatable cushion, and particles of a stop leak material. Upon deployment, the stop leak material becomes temporarily dispersed by and suspended in inflation gas such that the cushion is rendered less porous to inflation gas. | 09-24-2009 |
| 20090008915 | Motor vehicle comprising an occupant restraint device - A motor vehicle with an occupant restraint device, including a control device which produces a triggering signal when a predefined hazard signal is generated as a function of signals of a safety sensor system, and, accordingly, the occupant restraint vehicle acts on a vehicle occupant by at least one impact cushion. The control device generates the hazard signal at least as a function of vehicle acceleration signals and a belt state signal representing the activation or deactivation of a seat belt, deactivating the occupant restraint device at least for a certain period of time and/or activating the occupant restraint device at reduced power if the seat belt is identified as having been deactivated and vehicle acceleration signals are assigned to a critical forward displacement of the occupant if the seat belt is deactivated. | 01-08-2009 |
| 20090014991 | Gunner Retraction System and Apparatus - A rollover protection system for protecting exposed gunners during ground vehicle rollovers. The system retracts the gunner into the vehicle thereby removing him/her from physical danger. The system apparatus comprises a safety harness for the gunner with a retraction mechanism that is activated upon vehicle rollover. The safety harness is attached by elastic runners to pre-loaded springs which are held in a tension mode by clamps. The springs are placed in enclosed containers mounted to the bay-floor of the vehicle. The spring clamps are released by a computer in response to a gyroscopic sensor. Shock-absorbing inflatable cushions attached to the floor under the gunner are activated to cushion the retraction. | 01-15-2009 |
| 20100259033 | VEHICLE FRONT BODY STRUCTURE - Overlapping section ( | 10-14-2010 |
| 20120326422 | SENSORS FOR DETECTING RAPID DECELERATION/ACCELERATION EVENTS - Sensors for detecting rapid deceleration/acceleration events are disclosed herein. A sensor configured in accordance with one embodiment of the disclosure includes a magnetically operable device proximate to a magnet. The sensor also includes a biasing member operably coupled to a magnetic shield. The biasing member controls the movement of the magnetic shield between a first position that shields the magnetically operable device from the magnet, and a second position that exposes the magnetically operable device to the magnet. In a deceleration/acceleration event, the magnetic shield overcomes the biasing member and moves from the first position to the second position, thereby causing the magnetically operable device to be exposed to the magnet. | 12-27-2012 |
| 280735000 | Electric control and/or sensor means | 61 |
| 20080277909 | Actuator of Passenger Protection Device - In an actuator of a passenger protection device, a sub ECU | 11-13-2008 |
| 20130038045 | WIRELESS AIRBAG APPARATUS - A wireless airbag apparatus may include an airbag control unit (ACU) receiving a sensing signal from a collision sensor and having a first wireless communication unit, and an airbag module having a second wireless communication unit and a power supply circuit to transceive a signal with the wireless communication unit of the ACU, wherein the power supply circuit supplies operating power to an inflator in accordance with a deployment signal of the airbag module. | 02-14-2013 |
| 20090230663 | DUAL DEPTH AIRBAG WITH ACTIVE VENTING - An inflatable airbag cushion assembly with a release device for electronic communication with a sensor in a vehicle. The cushion assumes two different configurations depending on the occupant's position. The configurations are achieved via tethers along with closeable vent(s) to control cushion pressure. | 09-17-2009 |
| 20090072524 | Vehicle air bag minimum distance apparatus, method and system - A vehicle safety device includes a seat mounted within a passenger compartment of the vehicle, in which the seat is movably connected to a vehicle frame by a seat position adjusting mechanism that allows the seat to move along an axis between a forward-most position and a rearward-most position. An air-bag is mounted within the passenger compartment in front of the forward-most position of the seat, with the forward-most position of the seat defined as a position of the seat in which a distance between a passenger seated in the seat and the air-bag is equal to a minimum safe clearance. In addition, an exemplary method of maintaining a minimum safe clearance between an air-bag mounted in a vehicle and a vehicle passenger includes the steps of preventing motion of a seat toward the air-bag beyond a forward-most position, in which, when in the forward-most position, a passenger seated in the seat is separated from the air-bag by a predetermined minimum safe clearance, and providing a position adjusting mechanism for at least one vehicle control pedal to allow a passenger seated in the seat to adjust a distance between the seat and the at least one pedal by moving the at least one pedal toward and away from the seat. An automatic seat positioning system, which takes into account both seat to air-bag distance and eye height and automatically, may be used to optimally and automatically position a passenger to maximize safety and comfort. | 03-19-2009 |
| 20090066065 | Optical Occupant Sensing Techniques - Vehicular system for determining the presence of an object in a passenger compartment of the vehicle includes a first image receiver arranged at a first location for obtaining a first two-dimensional view of a portion of the compartment, and a second image receiver arranged at a second location for obtaining a second two-dimensional view of the same portion of the compartment, the second image receiver being arranged relative to the first image receiver such that three dimensions of the portion of the compartment are encompassed by the first and second views. A processor receives images from the first and second image receivers and determines whether an object is present in the compartment based on the images. A reactive system, such as an airbag assembly, may be coupled to the processor and controlled thereby based on the determination of whether an object is present in the imaged portion of the compartment. | 03-12-2009 |
| 20130062868 | SUPPORT MEMBER, DETECTION UNIT, SIDE SURFACE COLLISION DETECTION SYSTEM, AND OCCUPANT RESTRAINT SYSTEM - An acceleration sensor ( | 03-14-2013 |
| 20130020789 | ACTIVE SAFETY APPARATUS FOR VEHICLES AND METHOD OF CONTROLLING THE SAME - An active safety apparatus for vehicles and a method of controlling the apparatus, which can actively control the operation of a safety device, such as an airbag device or a seatbelt device installed in a vehicle for restraining a passenger behavior and protecting a passenger in a vehicle collision, based on the conditions of a vehicle collision and the passenger behavior which vary depending on the conditions of the vehicle collision, thereby optimally protecting the passenger for the conditions of the vehicle collision and improving passenger safety of the vehicle. | 01-24-2013 |
| 20110101661 | AIRBAG CONTROL SYSTEM - An airbag control system may include a sensor unit monitoring status of a vehicle being driven and an object located in front of the vehicle, an interior airbag deployed to an interior of the vehicle being driven, an exterior airbag deployed to an exterior of the vehicle being driven, and a control unit measuring a relative speed between the vehicle being driven and the object located in front of the vehicle from the sensor unit after deploying the exterior airbag, and deploying the interior airbag when it is determined that the measured relative speed exceeds an interior critical speed at which the interior airbag is deployed. | 05-05-2011 |
| 20090309341 | Airbag device - An airbag is inflated by gas for deployment to the front of and for restraining an occupant. A tether allows an inner capacity of the airbag to be equal to or smaller than a predetermined value by restricting a distance between a proximal end of the airbag and a surface of the airbag at deployment. A control unit acquires information relating to at least one of an occupant seat position, an occupant position to an instrument panel, an occupant physique, an occupant weight, and a magnitude of a collision impact. A release unit controls capacity and configuration of the airbag by releasing an end of the tether at a side of the proximal end according to the information acquired by the control unit. A vent discharges the gas before activation of the release unit and is closed on activation of the release unit. | 12-17-2009 |
| 20080303254 | SENSOR INTEGRATION FOR AIRBAG DEPLOYMENT - A system and method for deploying one or more airbags in a vehicle is provided. The system comprises a passive detection device, an active detection device and a controller. The passive detection device is configured to present one or more passive signals indicative of the motion of the vehicle after the vehicle has experienced an impact. The active detection device is configured to present suspension information related to the vehicle that is indicative of the motion of the vehicle prior to the vehicle experiencing an impact. The controller is configured to predict vehicle impact and deploy the airbags in response to the suspension information and the one or more passive signals. | 12-11-2008 |
| 20110260436 | PASSENGER AIRBAG APPARATUS - Provided is a passenger airbag apparatus that not only allows an airbag cushion to inflate in different sizes, depending on the types and positions of passengers in a passenger seat, but can automate a folding process, because the airbag cushion is made in 2D. | 10-27-2011 |
| 20110260435 | VEHICLE SEAT SYSTEM - An exemplary vehicle seat system includes a vehicle seat, an electronic control unit, a crash detection unit connected with the control unit, a seat occupancy sensing module configured for sensing an occupancy of the seat and generating a digital signal associated therewith, an airbag, and an airbag inflating module. The detection unit detects a crash and sends a crash signal associated therewith to the control unit. The inflating module is selectively operable in an activated mode where the inflating module is configured to inflate the airbag in response to the crash signal and an inactivated mode where the inflating module is deactivated and irresponsive to the crash signal. The control unit analyzes the digital signal and determining if the vehicle seat is occupied, and switches the inflating module either in the activated mode if the seat is occupied or in the inactivated mode if the seat is not occupied. | 10-27-2011 |
| 20100123302 | INDUCTIVE VEHICLE SEAT POSITION SENSOR ASSEMBLY - An inductive vehicle seat position sensor assembly determines a linear vehicle seat position and has a circuit board member. First and second transmitter coils are proximate to a periphery of the circuit board member and radiate an out of phase magnetic field in response to an alternating current input. First and second receiver coils are offset relative to one another. The first and second transmitter coils and the first and second receiver coils span along the circuit board member. A loop coil member is provided for relative motion to the circuit board member. The first and second receiver coils generate a voltage with phase information corresponding to a position of the loop coil member relative to the circuit board member. A signal conversion unit produces a seat position output corresponding to the vehicle seat position based on the voltage with phase information of the first and second receiver coils. | 05-20-2010 |
| 20110169251 | VEHICLE BODY COMPONENT WITH INTEGRATED CRASH SENSOR - A crash sensor for use in a safety system of an automotive vehicle is molded directly into a body component, with no intervening housing being provided. The body component may be a vehicle cross member, such as for reinforcing a radiator grill opening. The crash sensor is molded into the body component together with connections and/or connecting lines and/or plug-in connections and/or electronic circuit board. The crash sensor may be encased in a protective layer prior to being molded into the body component. | 07-14-2011 |
| 20090283995 | Variable output using piezo valve technology - 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. | 11-19-2009 |
| 20090289443 | VEHICLE SAFETY APPARATUS AND METHOD - An apparatus for a vehicle is provided comprising a first seat occupant detector, a first seat belt buckled sensor, and a seat belt warning device. The seat belt warning device may be configured to communicate with the first seat occupant detector and the first seat belt buckled sensor. The seat belt warning device may be programmed to cause an audible warning when the first seat occupant detector detects the presence of an individual in a first seat of the vehicle and the first seat belt buckled sensor detects that a first seat belt corresponding to the first seat is not buckled. The apparatus may include a first seat belt contacting seat sensor, wherein the first seat belt contacting seat sensor may determine if the first seat belt is in contact with the first seat. | 11-26-2009 |
| 20090008916 | Airbag Deployment Disabling System - A system for inhibiting deployment of an airbag includes a rollover sensor and a circuit that are enclosed in an enclosure. The enclosure is mounted on a surface that is at a predetermined potential. The circuit detects presence of the predetermined potential when the enclosure is mounted on the surface. The circuit detects absence of the predetermined potential when the enclosure is dismounted from the surface. The circuit inhibits deployment of the airbag when absence of the predetermined potential is detected. | 01-08-2009 |
| 20090261561 | METHOD AND APPARATUS FOR PRE-IMPACT DEPLOYMENT OF AIR BAG - An air bag deployment system includes a pre-impact sensor operative to detect an imminent impact and at least one post-impact sensor operative to detect an impact. An air bag has a non-deployed volume, a pre-impact deployed volume, and a post-impact deployed volume smaller than the pre-impact deployed volume. The air bag is deployed to the pre-impact volume wherein the air bag deployment system is arranged to deploy the air bag before the impact and the at least one air bag is deployed into the pre-impact deployed volume, in reaction to the imminent impact, and to the post-impact deployed volume in reaction to the impact. The system provides for enhanced occupant safety during a collision by allowing pre-impact deployment of the air bag in order to utilize the full possible length of deceleration for the occupant as the impact pulse affects the occupant. | 10-22-2009 |
| 20080238057 | Side airbag apparatus - A side airbag apparatus is provided with an inflator, and an airbag. The airbag is stored in a vehicle seat, is inflated and deployed by gas from the inflator, breaks the vehicle seat so as to jump out, and is inflated and deployed between a body side portion of a vehicle and the vehicle seat. In this side airbag apparatus, a controller predicts a side collision of the vehicle, and makes the inflator start an actuation in advance of the side collision in response to the prediction. Further, in the airbag inflated and deployed in accordance with the actuation start of the inflator, a deploying speed of the airbag is lowered in comparison with the deploying speed at a time of starting the actuation of the inflator after the side collision, at least outside the vehicle seat. | 10-02-2008 |
| 20080290636 | Device for Triggering Personal Protective Means - A device for triggering personal protective means in a vehicle, an inertial sensor system being provided in a first location, a processor being provided in a second location, and a firing circuit control being provided in a third location in the vehicle. The processor processes the signals of the inertial sensor system and as a function of this triggers the firing circuit control. | 11-27-2008 |
| 20080277910 | Vehicle seat including sensor - An occupation detection apparatus is provided including a conductor, a sensor, and a shielding electrode. The shielding electrode is located between the sensor and the conductor, and the shielding electrode is coupled, through a low impedance, to electrical ground. The conductor potentially represents an electrical potential of electrical ground. The coupling of the shielding electrode to electrical ground mitigates the susceptibility of the sensor to the conductor and other objects having a potential of electrical ground or near electrical ground. | 11-13-2008 |
| 20080238056 | MOTORCYCLE PASSENGER PROTECTING SYSTEM - Multiple protecting devices, such as an air bag and an air bag jacket, are controlled and operated in accordance with the shape and size of an impact. A normal collision determining section causes the air bag and/or the air bag jacket to operate in accordance with the magnitude and direction of a collision based on outputs of G sensors. When a collision predicting section predicts a collision on the basis of other vehicle information obtained by a vehicle-to-vehicle communication device and own-vehicle information, it causes a stand-by collision determining section to start instead of the normal collision determining section. The stand-by collision determining section determines a collision mode in advance and sets a threshold value for determining the outputs of the G sensors to a value different from a value used in the determination of the normal collision determining section so as to permit quick determination of a collision. | 10-02-2008 |
| 20080258444 | Vehicle occupant protection apparatus - An air bag device of the present invention includes squibs and a capacitor, an electric discharge circuit as well as a backup power supply, a voltage stabilizer and ignition circuits. The voltage stabilizer converts the voltage of the backup power supply to the predetermined target voltage, and the converted voltage is supplied for the ignition circuit. The capacitor removes a noise emitted by the ignition circuit. The electric discharge circuit discharges electricity accumulated in the capacitor right after the supply of an ignition current from the ignition circuit has ended. In this manner, a voltage rise of the capacitor occurring after the end of the supply of the ignition current can be resolved immediately, thereby enabling a supply of a stable ignition current for the squibs. | 10-23-2008 |
| 20080258443 | Safety Arrangement for Use in a Motor Vehicle - A safety arrangement to provide protection for an occupant in a motor vehicle includes a seat-belt provided with a measuring device to measure energy absorbed by the seat-belt. The measuring device may determine the length of safety-belt paid-out after a retractor locks, the belt being paid-out against a force provided by a force-limiter. The energy absorbed is calculated and is used to control the vents of a ventable air-bag. The air-bag is vented if a substantial part of the energy of the occupant is absorbed by the seat-belt, but is not vented if a large proportion of the energy has not been absorbed by the seat-belt. | 10-23-2008 |
| 20090212544 | Control Unit for Personal Protection - A control unit for personal protection having a polarity reversal protection between an external battery voltage and an internal voltage, to prevent an energy discharge from the control unit. The control unit also has a bidirectional DC/DC converter between an energy reserve and the internal voltage, the DC/DC converter determining its direction of conversion as a function of the internal voltage. The control unit is configured so that the control unit, after a switching-off process, records at least one measured value and generates a signal as a function of this measured value which characterizes an autarchy behavior of the control unit. | 08-27-2009 |
| 20090167004 | Air Bag Control Apparatus - To prevent short-time energization of an air bag due to a bit error occurring in a safing ON/OFF command, the invention provides an air bag control apparatus comprising a first electronic circuit ( | 07-02-2009 |
| 20090200777 | Apparatus and method for controlling an inflatable cushion - An air bag module, comprising: an inflatable cushion being configured for deployment from the air bag module; an inflator for inflating the inflatable cushion, the inflator being in fluid communication with the inflatable cushion, the inflator comprising a first initiator for initiating a first stage of inflation and a second initiator for use with the first initiator for initiating a second stage of inflation, the first stage of inflation providing a first inflation output to the inflatable cushion and the second stage producing a second inflation output to the inflatable cushion, the second inflation output being greater than the first inflation output; a deployable member, the deployable member being deployed in a first direction either before or during the first stage of inflation; and wherein unobstructed deployment of the deployable member in the first direction will cause an activation signal to be sent to the second initiator to initiate the second stage of inflation. | 08-13-2009 |
| 20090212543 | Safety System - A safety system for vehicle occupants includes a control unit and sensors situated remotely from the control unit and connected via conductors to the control unit. The safety system encompasses means for testing the sensors and the conductors to the sensors. | 08-27-2009 |
| 20080315568 | Crash Sensor - A crash sensor comprising a support arrangement for supporting opposed ends of a yieldable element directly on one of an outer skin of a vehicle and a component adjacent to the outer skin with the yieldable element substantially parallel with the outer skin of the vehicle. A sensor arrangement in the form of resistors mounted on the yieldable element to generate a signal in response to deformation or bending of the yieldable element. A stiffness and a mass of the yieldable element is selected to achieve such that a period for a complete oscillation of the element at its resonance frequency is of at least 2 milliseconds. | 12-25-2008 |
| 20100264632 | Vehicle Occupant Safety System with Variable Support and Method of Operating the Same - A vehicle occupant safety system having an airbag prevents an excessive force from acting upon the thorax of an occupant who has fastened the seat belt, in the event of an impact. The vehicle occupant safety system comprises an airbag, a sensor device for sensing at least one situation parameter and a control device for controlling the inflation and/or deflation and/or unfolding and/or positioning of the airbag in dependence of the at least one situation parameter. The unfolding, position or shape of the airbag and/or distribution of pressure within the airbag at the end of the filling phase, is directly or indirectly controlled in a targeted manner by a control device based on the at least one situation parameter. A modification of the shape of the airbag in the thorax region can be obtained in particular by a releasable constriction. | 10-21-2010 |
| 20090256338 | DYNAMIC SAFETY VENT - An inflatable airbag cushion assembly with a release device, at least one vehicle sensor, at least one vent strap, and at lest one dynamic vent. The vent strap, release device, and dynamic vent operate together such that the vent can adopt at least two configurations, with one of the configurations venting less inflation gas than the other. | 10-15-2009 |
| 20100148479 | Airbag module - An airbag module for a motor vehicle includes a gas sack that can be inflated with gas to protect an occupant, a gas generator for generating the gas provided for inflating the gas sack, and an additional cooling device comprising an openable reservoir for storing a coolant. The reservoir is opened when the gas sack is inflated, so that the coolant for cooling the gas used to inflate the gas sack can come into contact with the gas. The cooling device comprises a movement generating device that opens the reservoir to release the coolant. | 06-17-2010 |
| 20080231027 | Method and apparatus for classifying a vehicle occupant according to stationary edges - System and methods are provided for classifying an occupant of a vehicle. An edge image generation component ( | 09-25-2008 |
| 20110031724 | IMPACT GUARD BEAM - An impact guard beam for vehicles comprises a beam ( | 02-10-2011 |
| 20120139219 | AIRBAG CONTROL UNIT WITH IMU INTEGRATION - Provided is an airbag control unit with inertial measurement unit (IMU) integration, which includes an airbag collision sensor configured to detect airbag collision information; a digital sensor configured to detect a yaw rate and an acceleration, and to convert a detected data to a digital signal; and a micom configured to identify whether an output from the digital sensor and an output from the airbag collision sensor are within a measurement range of a corresponding sensor. | 06-07-2012 |
| 20110233907 | HOUSING FOR AN ELECTRICAL CIRCUIT - A housing for an electrical circuit, in particular for a sensor, pins projecting from the housing for the electrical contacting of the circuit, additional pins being provided which are not connected electrically to the circuit but instead are used as mechanical arrangement for fastening the housing to a printed circuit board in particular. The present invention further relates to a housing having an electrical circuit, in particular a sensor, pins projecting from the housing for the electrical contacting of the circuit, at least two pins being connected to one another mechanically via a connecting piece. | 09-29-2011 |
| 20080272580 | Aspirated Inflators - Airbag inflator system includes an inflatable airbag, a flexible housing, and a gas generating system for generating gas which is directed from the housing to the interior of the airbag. The housing may be made by an extrusion process to provide it with its flexible form and a curved or arcuate form if necessary or desired. The housing may be elongate and/or mounted to a roof rail and/or made of plastic. An aspirating structure or nozzle may be arranged between the gas generating system and an interior of the airbag, which nozzle is varied as a function of temperature. The aspirating structure or arrangement enables air from the passenger compartment of the vehicle to mix with the generated gas prior to being directed into the airbag. | 11-06-2008 |
| 20090033078 | Dual function capacitive sensor for seat occupant detection - A dual function capacitive occupant detection sensor includes a capacitive load cell disposed below a seat cushion, an electric field emitter disposed above the seat cushion and a capacitance-responsive control circuit. The control circuit determines a seated weight of an occupant based on the load cell capacitance, and a coupling of the electric field through an occupant based on the capacitance between the electric field emitter and the vehicle ground. The measured seated weight and electric field coupling parameters are logically combined to detect an occupant and to distinguish between a normally seated occupant and a cinched down infant or child seat of similar apparent weight. | 02-05-2009 |
| 20110233906 | AIRBAG JACKET ACTIVATING SYSTEM - A human body communications transmitter is provided to a vehicle body, for transmitting an activation signal by using the human body of a rider as a transmission path on the basis of an instruction from an on-vehicle ECU. A human body communications receiver is provided to an airbag jacket for receiving the activation signal which is transmitted by using the human body of the rider as the transmission path. The in-jacket ECU inflates and thus deploys the airbag jacket upon receipt of the activation signal for the airbag jacket through either human body communications or radio communications. The human body communications transmitter is connected to a right handlebar portion electrode, a left handlebar portion electrode, a seat portion electrode, a right footrest portion electrode and a left footrest portion electrode. The human body communications receiver is connected to an in-jacket electrode adjacent to the human body. | 09-29-2011 |
| 20090066067 | Airbag module - An airbag module for a motor vehicle includes a gas sack that can be inflated with gas to protect an occupant, a gas generator for generating the gas provided for inflating the gas sack, and an additional cooling device comprising an openable reservoir for storing a coolant. The reservoir is opened when the gas sack is inflated, so that the coolant for cooling the gas used to inflate the gas sack can come into contact with the gas. The cooling device comprises a movement generating device that opens the reservoir to release the coolant. | 03-12-2009 |
| 20090066066 | Triggering Device for a Safety Device in an Automotive Vehicle - A triggering device for a safety device in an automotive vehicle, in particular for an airbag, has an electrical component that has at least one force sensor and that is attached to the body of the automotive vehicle in such a way that a measurement signal that is dependent on the deformation of the body can be applied at a measurement signal output of the force sensor. An evaluation device for processing the measurement signal is connected to the measurement signal output. The force sensor has at least one piezo element, which is integrated into a CMOS chip together with the evaluation device. | 03-12-2009 |
| 20110042926 | SAFETY ARRANGEMENT FOR A VEHICLE AND METHOD FOR CONTROLLING A SAFETY ARRANGEMENT - The invention relates to a safety arrangement for a vehicle, in particular for a motor vehicle with an airbag ( | 02-24-2011 |
| 20100171294 | Occupant protecting device for vehicle and method of controlling the device - A collision detector detects a collision relative to a lateral face of a vehicle. A left seat and a right seat are arranged adjacent to each other in a left-right direction of the vehicle. A left restraint restrains an occupant seated on the left seat, and a right restraint restrains an occupant seated on the right seat. A seat position detector detects seat positions of the seats in a front-rear direction of the vehicle. A driving portion drives one of the restraints based on a direction of the collision detected by the collision detector and a relationship of the seat positions detected by the seat position detector. | 07-08-2010 |
| 20110062690 | OCCUPANT RESTRAINING APPARATUS FOR A MOTORCYCLE - An occupant restraining apparatus for a motorcycle which can release an occupant smoothly from a motorcycle body upon falling down. An occupant's seat includes a releasing mechanism which allows release thereof from a seat support member together with an occupant upon falling down of the motorcycle. When the motorcycle falls down, the occupant's seat can be released smoothly from the seat support member. Accordingly, an occupant restraining apparatus for a motorcycle which allows, upon falling down, the occupant to be released smoothly from the seat support member (motorcycle body) can be provided. | 03-17-2011 |
| 20110148082 | METHOD AND DEVICE FOR ACTIVATING OCCUPANT PROTECTION MEANS - In a method for activating occupant protection means as a function of at least one input quantity derived from at least one acceleration sensor, characteristic curves are calculated for the input quantities deceleration, forward displacement and/or speed reduction, which characteristic curves define at least one area in a quadrant of a coordinate system, which determines the deployment behavior of the occupant protection means. | 06-23-2011 |
| 20120032428 | VEHICLE RESTRAINT SYSTEM - An automotive passenger restraint system of the lapbelt/diagonal shoulder belt type wherein a sensor and lookup table are used to detect the onset of a collision and provide a programmed (a) relocation of the inboard seatbelt anchor point to increase pelvic area restraint and (b) asymmetric airbag deployment. | 02-09-2012 |
| 20110254253 | METHOD FOR ACTIVATING A RESTRAINT SYSTEM IN A VEHICLE - A method for activating a restraint system in a vehicle, in which the restraint system is activated as a function of a speed, an activation characteristic, and at least one quantity derived from an acceleration signal, and in which the at least one quantity exceeds a threshold function that is set as a function of the impact speed and a required activation time. The activation characteristic of a particular accident type runs linearly to a first impact speed value. The activation characteristic runs with a second slope between the first impact speed and a second impact speed value, the first and the second impact speed value depending on the particular vehicle type. | 10-20-2011 |
| 20080211213 | Capacitive Sensor for Morphological Discrimination of a Motor Vehicle Seat Occupant - The invention concerns a detection set comprising in combination a sensor ( | 09-04-2008 |
| 20080203712 | Switch-based seat sensor for occupant presence detection - A switch-based sensor apparatus is disposed between the bottom cushion and frame of a seat. The sensor apparatus includes upper and lower rigid and generally parallel force translation plates biased apart by a set of springs, and a switch assembly. The force translation plates are joined so as to pre-load the springs while permitting closing movement between the upper and lower force translation plates in response to occupant seat force that exceeds the pre-load force of the springs. The switch assembly includes a circuit board and elastomeric switch pad defining one or more switch elements that are actuated by a prescribed closing movement between the upper and lower force translation plates for electrically detecting the presence of a seat occupant. | 08-28-2008 |
| 20100283231 | INFLATOR FOR AN AIR-BAG - An inflator for an airbag comprises a bottle ( | 11-11-2010 |
| 20120267882 | Method To Achieve Early/Robust G-Signal For Side Pole - The embodiments herein describe a fundamental layout between the inner panel of a door, side sill reinforcement, and uncrushable items within the door of the vehicle. During a side impact collision, a side impact sensor receives a G-signal resulting from the collision. The G-signal must ramp up to a threshold value in order to deploy the side airbag. The fundamental layout between the inner panel of a door, side sill reinforcement, and uncrushable items within the door of the vehicle ensures a more robust G-signal which results in early deployment of the side airbag relative to the movement of the door toward the occupant. | 10-25-2012 |
| 20100213693 | METHOD AND APPARATUS FOR CONTROLLING AN ACTUATABLE RESTRAINT DEVICE USING A SIDE PRESSURE SENSOR - An apparatus for controlling an actuatable occupant restraint device of a vehicle comprises a central crash accelerometer that senses crash acceleration at a vehicle location and that provides a first crash acceleration signal indicative thereof. A side pressure sensor senses pressure in a chamber disposed at a side of the vehicle and provides a side pressure signal indicative thereof. A controller actuates the actuatable occupant restraint device in response to the first crash acceleration signal and the side pressure signal. The controller determines a first moving average of acceleration value comprising a moving average of acceleration in a direction generally perpendicular to a longitudinal axis of the vehicle determined from the first crash acceleration signal. The controller determines a change in pressure value comprising a change in pressure in the chamber determined from the side pressure signal. The controller actuates the actuatable occupant restraint device when both the first moving average of acceleration value exceeds a first threshold and the change in pressure value exceeds a second threshold. | 08-26-2010 |
| 20100025974 | Apparatus for allowing or suppressing deployment of a low risk deployment airbag - A low-cost automatic suppression apparatus allows or suppresses deployment of a low risk deployment airbag based solely on occupant seat load and seat belt tension. The seat load and belt tension parameters are detected by low-cost sensors, and an airbag control unit suppresses airbag deployment when the occupant load is below a specified load threshold or the belt tension is above a specified tension threshold, and otherwise allows airbag deployment. The sensors are preferably switch-based so that the signals provided to the airbag control unit are in the form of a differential electrical current, and only two wires are needed to interface each sensor to the airbag control unit. | 02-04-2010 |
| 20110074140 | CONTROL UNIT AND METHOD FOR CONTROLLING OCCUPANT PROTECTION MEANS FOR A VEHICLE - A control unit and a method for triggering an occupant protection arrangement for a vehicle are described, at least two semiconductor modules being provided for actuating the triggering of the occupant protection arrangement. The at least two semiconductor modules are provided for actuating the control of the personal protective arrangement. The at least two semiconductor modules provide the power supply voltage for the control unit. The at least two semiconductor modules also monitor these power supply voltages and monitor each other in at least one direction relative to these power supply voltages. The at least two semiconductor modules jointly execute a reset for the control unit, depending on the monitoring of the power supply voltages. | 03-31-2011 |
| 20090256339 | VEHICLE SUPPLEMENTAL RESTRAINT SYSTEM CONFIGURATION AND METHOD - A vehicle supplemental restraint system (SRS) can include an SRS control unit located rearward of the instrument panel in the vehicle. The SRS control unit can be located at or connected to a cross member of the vehicle frame that is located rearward of the instrument panel in the vehicle such that signals from a side sensor attached to a side portion of the vehicle frame are quickly transmitted to the SRS control unit with high signal strength. A space in the control panel or in the instrument panel of the vehicle can then be used to house a multi-axis or single axis satellite sensor to increase signal strength and sensor accuracy and speed for the front crash sensor or sensors in the vehicle. The SRS control unit can be equipped with an impact sensor. The position of the SRS control unit in combination with use of an impact sensor in the SRS control unit | 10-15-2009 |
| 20120018989 | METHOD FOR DEPLOYING A VEHICULAR OCCUPANT PROTECTION SYSTEM - Method for protecting an occupant seated on a seat of a vehicle which includes an airbag arranged to deploy to protect the occupant in the event of a crash involving the vehicle, a first sensor system for detecting presence of the occupant, a second sensor system connected to the seatbelt for obtaining information about seatbelt spool out, and a processor coupled to the first and second sensor systems and arranged to control deployment of the airbag based on the presence of the occupant and the information about seatbelt spool out. The second sensor system may be arranged to measure a length of the seatbelt pulled out of a seatbelt retractor and include an encoder arranged on a shaft around which the seatbelt is wound and a receptor arranged to generate a signal when a line on the encoder passes by the receptor. | 01-26-2012 |
| 20120211972 | Airbag apparatus - An airbag apparatus is provided with at least one detent assembly each including a micro switch, a telescopic cylinder slidably disposed in the micro switch, a bifurcation for fastening the cylinder by attaching to the micro switch, a first rope secured to the micro switch, and a second rope secured to the bifurcation wherein the micro switch is open in an inoperative position; an airbag; a cover spaced around the airbag; sensors disposed in an automobile; and an ECU for controlling the airbag and the sensors. The airbag is surrounded and fastened by the first and second ropes of the detent assemblies. The airbag expands to close the micro switch and break loose when an actual accident event is sensed by at least one of the sensors. | 08-23-2012 |
| 20120126519 | AIRBAG CONTROL APPARATUS - An airbag control apparatus of a vehicle includes an occupant determination device, a deployment determination device, a storage device, an airbag controller, and a voltage variation detector. The airbag controller is configured to control deployment of an airbag based on the deployment/non-deployment information. The voltage variation detector is configured to detect a variation in a voltage of an in-vehicle battery and configured to output voltage variation information to the airbag controller. If the voltage variation information indicates that the voltage detected by the voltage variation detector varies, the airbag controller controls the airbag based on deployment/non-deployment information stored in the storage device immediately before the airbag controller receives the voltage variation information indicating that the voltage detected by voltage variation detector varies. | 05-24-2012 |
| 20120256405 | SIDE COLLISION DETECTION SYSTEM, OCCUPANT RESTRAINT SYSTEM AND VEHICLE - A control device is provided with a first collision determiner for determining a side collision to a vehicle based on velocity in a direction orthogonal to the advancing direction of the vehicle, and a second collision determiner for determining a side collision to the vehicle based on a displacement amount and displacement velocity of an acceleration sensor provided in a door of the vehicle. When the vehicle is traveling at a relatively high velocity, the control device detects a side collision to the vehicle using the determination result of the first collision determiner and the determination result of the second collision determiner. In addition, when the vehicle is traveling at a low velocity or is stopped, the control device detects a side collision to the vehicle using the determination result of the first collision determiner, without using the determination result of the second collision determiner. | 10-11-2012 |
| 20120256404 | Method and control device for the activation of a passenger safety arrangement of a vehicle - A method of activating a passenger safety arrangement of a vehicle, the method including reading in a roll rate of the vehicle and triggering the passenger safety arrangement when, at a first time, at least one roll rate value is present, which exhibits a positive sign and is larger than a roll rate positive threshold value and when, at a second time after the first time, at least one roll rate value is present, which exhibits a negative sign and is smaller than a roll rate negative threshold value. | 10-11-2012 |
| 20090167005 | Airbag deployment controller and passenger protection device including the same - An airbag deployment controller and a passenger protection device including the same are provided to prevent erroneous operation of an airbag due to noises and quickly deploy the airbag. The passenger protection device determines whether or not to drive an airbag unit, upon determining a detected value of a front acceleration sensor as being over a first collision threshold. Then, when determining to drive the airbag unit, the passenger protection device determines whether or not a detected value of a central acceleration sensor exceeds a second collision threshold. With the detected value being over the second threshold, it generates a driving signal and outputs it to the airbag unit in a final deployment control process. Thereby, the airbag unit operates an inflator to drive an airbag. | 07-02-2009 |
