Patent application number | Description | Published |
20080230337 | BRAKE CONTROL APPARATUS FOR VEHICLES - A brake control apparatus including a reservoir tank, a housing, a pump within the housing, a suction port formed in the housing and communicated with a suction portion of the pump, a discharge port formed in the housing and communicating a discharge portion of the pump with wheel cylinders, a suction pipe connecting the suction port and the reservoir tank, and a reservoir chamber disposed within the housing between the suction portion of the pump and the suction port. The reservoir chamber has a volume capable of reserving at least a predetermined amount of the brake fluid which is required for one-time braking at a maximum fluid pressure. | 09-25-2008 |
20080234909 | BRAKE CONTROL APPARATUS AND PUMP-UP SYSTEM - A brake control apparatus of an automotive vehicle employs a pump incorporated in a hydraulic actuator, a separate pressure control valve disposed between the pump and each individual wheel-brake cylinder and having an orifice having a predetermined orifice-constriction flow passage area, and vehicle sensors including at least wheel cylinder pressure sensors. Also provided is a controller configured to be connected to the vehicle sensors and the hydraulic actuator, for calculating, based on a driver's manipulated variable, target wheel cylinder pressures, and for controlling the hydraulic actuator responsively to the target wheel cylinder pressures. The controller is further configured for calculating a fluid-pressure deviation between the target wheel cylinder pressure and the actual wheel cylinder pressure, and for stopping working-fluid supply from the pump to the abnormal wheel-brake cylinder having an abnormality in the fluid-pressure deviation exceeding a predetermined threshold value. | 09-25-2008 |
20090072615 | APPARATUS FOR AND METHOD OF CONTROLLING BRAKES - An apparatus for controlling brakes, includes a first brake circuit for supplying brake fluid, pressure-increased by a booster, to a wheel-brake cylinder, a first control valve disposed in the first brake circuit for establishing and blocking fluid communication between a master cylinder and the wheel-brake cylinder, a second brake circuit arranged in parallel with the first brake circuit for supplying brake fluid, pressure-increased by a fluid-pressure source, to the wheel-brake cylinder, and a second control valve disposed in the second brake circuit for establishing and blocking fluid communication between the fluid-pressure source and the wheel-brake cylinder. Also provided is a control unit, which is configured to selectively control the first and second control valves when building-up wheel-cylinder pressure, and further configured to build-up the wheel-cylinder pressure by operating the fluid-pressure source when at least the second control valve is controlled to a valve-open position. | 03-19-2009 |
20100070151 | Vehicle Speed Control Device and Method for Controlling Vehicle Speed - An accelerator pedal operation condition detecting section detects an operation condition of the accelerator pedal, a brake pedal operation condition detecting section detects an operation condition of the brake pedal; an inter-vehicular distance detecting section detects a distance between an own-vehicle and a forward-vehicle and a speed control section controls a speed of the own-vehicle. A control unit is configured to keep a relative positional relation between the own-vehicle and the forward-vehicle when the detected inter-vehicular distance is smaller than a predetermined reference inter-vehicular distance and the operation condition detected by the accelerator pedal operation condition detecting section and the brake pedal operation condition detecting section indicates a predetermined operation condition. | 03-18-2010 |
20100244553 | Automotive Hydraulic Brake System - An automotive hydraulic brake system is provided which exhibits an excellent pressure reduction performance to a low μ road while restraining an intake resistance of a fluid pump. For providing the hydraulic brake system, a gate-in valve is connected to an intake passage that connects a master cylinder to an intake side of the fluid pump. The gate-in valve selectively opens and closes the intake passage in accordance with a mutual relation between a master cylinder pressure and a pressure produced at an intake side of the fluid pump. | 09-30-2010 |
20100250064 | CONTROL APPARATUS FOR VEHICLE IN WHICH TRAVELING ENVIRONMENT RECOGNITION APPARATUS IS INSTALLED - In a control apparatus for a vehicle in which a traveling environment recognition apparatus is installed, a road shape prediction section configured to predict a road shape of a traveling road in a forward direction of the vehicle on a basis of a result of recognition by an object recognition section; a travel trajectory predicting section configured to predict a travel trajectory of the vehicle; a point of intersection calculation section configured to calculate a point of intersection between a road end of the road predicted by the road shape prediction section and a travel trajectory predicted by the travel trajectory prediction section; and a speed control section configured to control a speed of the vehicle with the point of intersection calculated by the point of intersection calculation section as a target point of place. | 09-30-2010 |
20110066343 | VEHICULAR CONTROL APPARATUS AND METHOD - In vehicular control apparatus and method, a traveling environment of a forward position of an advance direction of a vehicle in which an actuator for a vehicular control purpose is mounted is detected, a reliability of a result of measurement of the traveling environment by the traveling environment measurement section is determined, and an operation of the actuator is determined with the determined reliability as a requiring condition. | 03-17-2011 |
20110066350 | VEHICLE CONTROL SYSTEM - A vehicle control system includes: an inter-vehicle distance control section configured to perform a follow-up control to a preceding vehicle by automatically accelerating or decelerating a host vehicle, or a constant speed running control section configured to perform a constant speed running to converge to a set speed; a brake operating state sensing device; and a control unit including; a deceleration control section configured to perform a deceleration in accordance with the brake operating state of the driver when the brake operating state sensing device senses the brake operation of the driver during the inter-vehicle distance control or the constant speed running control; and an acceleration control limit section configured to cancel a control in the acceleration direction which is performed by the inter-vehicle distance control or the constant speed control when the brake operating state sensing device senses an end of the brake operation of the driver. | 03-17-2011 |
20110231095 | VEHICLE CONTROL APPARATUS AND VEHICLE CONTROL METHOD - A vehicle control apparatus includes a first section that recognizes a lane boundary line of a lane in which a vehicle is traveling. A second section recognizes a present position of a predetermined reference point of the vehicle. A third section calculates a predicted position of the reference point, wherein the predicted position is a predetermined interval ahead of the present position. A fourth calculates an imaginary lane boundary line, wherein the imaginary lane boundary line is tangent to the lane boundary line at a point close to the predicted position. A fifth section performs a control of preventing the vehicle from deviating from the lane by controlling the vehicle depending on positional relationship between the vehicle and the lane boundary line. A sixth section selectively permits and suppresses the control depending on positional relationship among the imaginary lane boundary line, the present position, and the predicted position. | 09-22-2011 |
20120140039 | RUNNING-ENVIRONMENT RECOGNITION APPARATUS - A running-environment recognition apparatus includes an information recognition section mounted in a vehicle and configured to recognize an information of at least a frontward region of the vehicle relative to a traveling direction of the vehicle; and a road-surface calculating section configured to calculate a road surface of a traveling road and a portion lower than the road surface in the frontward region of the vehicle, from the information recognized by the information recognition section. | 06-07-2012 |
20120150411 | VEHICLE CONTROL APPARATUS - In a vehicle control apparatus employing a first speed self-adjustment control system configured to control a speed of a host vehicle based on a first command value, in a manner so as to maintain a distance of the host vehicle from a preceding vehicle or to maintain a set speed, a second speed self-adjustment control system is provided for controlling the host vehicle's speed based on a second command value determined based on information about a lateral acceleration acting on the host vehicle. Also provided is a deceleration selector configured to select either one of the first and second command values, which selected command value produces a greater deceleration exerted on the host vehicle. A control unit is configured to control the host vehicle's speed by driving an actuator based on the selected command value. | 06-14-2012 |
20130088076 | Automotive Hydraulic Brake System - An automotive hydraulic brake system is provided which exhibits an excellent pressure reduction performance to a low μ road while restraining an intake resistance of a fluid pump. For providing the hydraulic brake system, a gate-in valve is connected to an intake passage that connects a master cylinder to an intake side of the fluid pump. The gate-in valve selectively opens and closes the intake passage in accordance with a mutual relation between a master cylinder pressure and a pressure produced at an intake side of the fluid pump. | 04-11-2013 |
20140288758 | ELECTRIC VEHICLE CONTROL DEVICE - It is an object of the present invention to provide a control apparatus which can achieve a compatibility between a response characteristic of a torque which coincides an acceleration demand by a driver and a reduction effect of a gear backlash. A vehicle controller | 09-25-2014 |
20140346851 | BRAKE DEVICE - A brake device used in a vehicle employing a regenerative braking device for applying an electric braking force to road wheels, is provided with a first pump for sucking brake fluid from a master cylinder for generating a brake fluid pressure by a brake operation of the driver and for increasing a wheel-cylinder fluid pressure of a front-wheel system so as to generate a braking force, and a second pump for sucking the brake fluid from a reservoir, and for increasing a wheel-cylinder fluid pressure of a rear-wheel system so as to generate a braking force. Also provided is a brake control unit for calculating a distribution amount among the braking forces respectively produced by the first pump, the second pump, and the regenerative braking device in order to generate a required braking force depending on the brake operation by the driver. | 11-27-2014 |