Patents Examined by Stephen M Bowes
-
Patent number: 10703347Abstract: A method for operating a brake installation of a vehicle. A first electrically controllable pressure provision device provides brake pressure for actuating hydraulically actuatable brakes. A first electronic open-loop and closed-loop control unit, and a first pressure detection device, measures brake pressure provided by a primary brake system. A secondary brake system between the primary system and a part of the wheel brakes has a second electrically controllable pressure provision device provides brake pressure for actuating at least the part of the brakes. A second electronic open-loop and closed-loop control unit, and at least one second pressure detection device, the signals of which are processed in the second electronic open-loop and closed-loop control unit. The secondary system monitors the primary system based on signals from the second pressure detection device and on a predefined brake pressure demand to build up a brake pressure corresponding to the predefined brake pressure demand.Type: GrantFiled: February 20, 2017Date of Patent: July 7, 2020Assignee: Continental Teves AG & Co. oHGInventors: Marco Besier, Georg Roll, Sascha Gröger, Andreas Neu, Cristiano Hoffmann, Paul Linhoff
-
Patent number: 10697506Abstract: A brake lock system for a pumpjack brake apparatus comprises a latch handle lever pivotally mounted at a location on a pumpjack, a countershaft rotatably mounted on the pumpjack, latch handle linkage, and control linkage that transitions movement and force of the latch handle lever to a latch arm with a latch dog for pivoting the latch arm to insert the latch dog in a notch in the pumpjack brake apparatus. The latch handle, latch handle linkage, control linkage, and latch arm have dimensions that provide a mechanical advantage of the latch handle lever over the latch arm.Type: GrantFiled: September 13, 2017Date of Patent: June 30, 2020Inventor: Patrick Craig Young
-
Patent number: 10697513Abstract: This brake pad wear detector is provided with an attachment part attached to a back plate having a first surface to which a lining in contact with a sliding surface of a disc rotor is secured and a second surface on the side opposite the first surface, an arm part protruding from the attachment part toward the side of the first surface opposite from the second surface, the arm part being curved toward the opposite side, and a contact part provided to the arm part and provided to a position where the contact part will come into contact with the disc rotor when the lining has worn away.Type: GrantFiled: March 31, 2016Date of Patent: June 30, 2020Assignee: ADVICS CO., LTD.Inventor: Shohei Arakane
-
Patent number: 10690214Abstract: A shield is slidably mounted to a cylinder of a shock absorber and fastened to a piston shaft of the shock absorber. The shield may include a circumferential slot that fits over a disk formed on the piston shaft to secure the shield to the piston shaft. The shield may include a partial cylinder that extends over a point of entry of the piston shaft into the cylinder. For example, the shield may have a cross section that is a 200 to 270 degree arc. The shield may include a guide along an interior surface that engages a slider secured to the cylinder. The guide may be a slot and the slider is a post seated in the slot.Type: GrantFiled: August 14, 2018Date of Patent: June 23, 2020Assignee: Daystar Products International, Inc.Inventor: Mark Alan Turner
-
Patent number: 10690208Abstract: The present invention discloses an air spring comprising a piston, a top plate, a clamp ring, a snap ring, and a flexible member which is affixed to the piston and the top plate, wherein the piston, the top plate and the flexible member define a pressurizable chamber, wherein the snap ring is affixed to the clamp ring, wherein the clamp ring affixes an upper portion of the flexible member to the top plate, wherein the clamp ring affixes the snap ring to the top plate, and wherein the top plate is affixed between the snap ring and the flexible member.Type: GrantFiled: June 15, 2016Date of Patent: June 23, 2020Assignee: Stemco Products, Inc.Inventors: Mark G. Trowbridge, David A. Palky, David J. Maguire
-
Patent number: 10682996Abstract: The electromechanical brake force booster for a vehicle brake system comprises a drive arrangement for driving at least one actuating device which is designed for actuating a brake cylinder. The drive arrangement has at least one electric motor and a gearing for coupling the electric motor to the at least one actuating device. The gearing comprises at least one second spur gear and at least one first spur gear. Furthermore, the gearing has an intermediate gearing stage. The intermediate gearing stage couples the electric motor to the second spur gear and to the first spur gear in torque-transmitting fashion. The intermediate gearing stage drives the second spur gear directly and the first spur gear via at least one intermediate gear.Type: GrantFiled: September 16, 2016Date of Patent: June 16, 2020Assignees: ZF Active Safety GmbH, ZF Friedrichshafen AGInventors: Kurt Wingender, Martin Hofmann, Boris Koeth, Jose Manuel Calvo Martinez, Jens Sparfeld, Stefan Kammers, Paul Warkentin, Ingo Decker, Klemens Humm, Detlef Baasch
-
Patent number: 10677309Abstract: An apparatus and system are disclosed that provide position sensitive suspension damping. A damping unit includes a piston mounted in a fluid-filled cylinder. A vented path in the piston may be fluidly coupled to a bore formed in one end of the piston rod, creating a flow path for fluid to flow from a first side of the piston to a second side of the piston during a compression stroke. The flow path may be blocked by a needle configured to engage the bore as the damping unit is substantially fully compressed, thereby causing the damping rate of the damping unit to increase. In one embodiment, the piston includes multiple bypass flow paths operable during the compression stroke or the rebound stroke of the damping unit. One or more of the bypass flow paths may be restricted by one or more shims mounted on the piston.Type: GrantFiled: October 3, 2014Date of Patent: June 9, 2020Assignee: Fox Factory, Inc.Inventors: Everet Owen Ericksen, Christopher Paul Cox, Sante M. Pelot
-
Patent number: 10676179Abstract: The invention relates to an electromechanical braking method for an aircraft having at least one electromechanical brake 2 fitted to at least one braked wheel 1 of the aircraft, the brake 2 having friction members 3 and a plurality of electromechanical actuators 4, each actuator 4 comprising a pusher 5 suitable for being moved by means of an electric motor 6 to selectively apply a pressing force on the friction members 3. According to the invention, for a given braking operation, a total braking force to be applied against the friction members 3 of the brake is distributed in non-uniform manner amongst the actuators 4 of the brake, such that at least two actuators 4 apply respective different forces.Type: GrantFiled: October 24, 2013Date of Patent: June 9, 2020Assignee: MESSIER-BUGATTI-DOWTYInventors: Marion Laur, Thomas LePage, Jean-Frederic Diebold, Philippe Chico
-
Patent number: 10670107Abstract: A hydraulic damper for a vehicle including a main tube. A first piston assembly is slideably disposed in the main tube and axially divides the main tube into a rebound chamber and a primary compression chamber. A hydraulic compression stop assembly is disposed in the primary compression chamber and includes a narrowed section extending between an open end and a closed end. A second piston assembly is slideably disposed in the narrowed section and is coupled with the first piston assembly. The second piston assembly has a piston tube that extends between an opened end and a shut end. A displaceable partition is slideably disposed in the piston tube. A first auxiliary compression chamber is defined between the partition and the closed end of the narrowed section. A second auxiliary compression chamber is defined between the partition and the shut end of the piston tube.Type: GrantFiled: December 15, 2017Date of Patent: June 2, 2020Assignee: BEIJINGWEST INDUSTRIES CO., LTD.Inventor: Piotr Andrzej Flacht
-
Patent number: 10670098Abstract: A monitoring device for a disk brake includes a sensor configured to be attached to a brake caliper of the disk brake; and a measuring element configured to be moved relative to the sensor unit. The sensor is designed to register a relative position of the measuring element. The sensor and the measuring element are spaced from one another for the purpose of forming a contactless monitoring device. The preloading element is arranged between the measuring element and the sensor for preloading the measuring element against a pressure spindle of the disk brake.Type: GrantFiled: July 23, 2016Date of Patent: June 2, 2020Assignee: WABCO EUROPE BVBAInventors: Michael John, Martin Stumpf
-
Patent number: 10668910Abstract: A hydraulic block of a slip regulation of a hydraulic vehicle power brake system that has a master brake cylinder bore and forms a master brake cylinder. In order to prevent a hard impact of a piston of the master brake cylinder against an end stop when the master brake cylinder is released, in particular when there is an abrupt release, for example when the foot slides off a foot brake pedal, a hydraulic return damper that is integrated in the piston is provided.Type: GrantFiled: May 29, 2018Date of Patent: June 2, 2020Assignee: Robert Bosch GmbHInventors: Andreas Weh, Harald Guggenmos, Matthias Mayr, Stefan Kaserer
-
Patent number: 10663021Abstract: A disc brake for a motor vehicle having a reset device that can only be plastically deformed, as a result of a force acting thereon in the actuation direction along a guide surface of the receiving region, if the reset device has adopted a predetermined, exclusively elastic deformation as a result of this force, wherein the plastically deformable region is formed as a loop and is in direct contact with the retaining tongue and can also roll out along the guide surface during the plastic deformation.Type: GrantFiled: June 7, 2016Date of Patent: May 26, 2020Assignee: Lucas Automotive GmbHInventor: Markus Mallmann
-
Patent number: 10647227Abstract: The present invention is a linear mechanical lock of the type used in vehicle seating. The linear mechanical lock uses a housing, rod, sleeve, bushings, release lever, clutch springs, and return spring. The present invention is an improved precision linear mechanical lock device using a two-piece clamshell housing. The two-piece clamshell housing has formed projections that locate and align the bushings within the housing. The two-piece clamshell housing has additional design features improving manufacturability, cost and reliability such as lanced tabs to align the internal components, lanced bumps to act as a return spring perch, cable mounts, and an extruded mounting hole.Type: GrantFiled: December 5, 2016Date of Patent: May 12, 2020Assignee: Porter Systems Inc.Inventors: Edward Poulos, Richard T. Oliver
-
Patent number: 10641007Abstract: A rotary locking mechanism and a lock applying the rotary locking mechanism and a locking control method are provided. A rotary output member is locked by a stable triangular supporting structure between the first locking member and the second locking member, the effective constraint of the second locking member on the first locking member applied by the first locking member in both a locked state and an unlocked state achieves locking and unlocking reliability of the product. The entire locking mechanism is controlled by the same switching member. The false locking operation when the rotary member is operating is effectively avoided through the mechanical structure and the automatic control method. The entire rotary locking mechanism is enclosed and fixed in a shell of the lock, and can be applied to transmission machinery of bicycles, electric vehicles, motorcycles and even lightweight automobiles.Type: GrantFiled: November 14, 2017Date of Patent: May 5, 2020Inventor: Jichu Li
-
Patent number: 10634210Abstract: An isolator for a stationary vibration isolation system, which is effective in the horizontal and vertical directions, the isolator comprising at least one pneumatic actuator.Type: GrantFiled: June 9, 2017Date of Patent: April 28, 2020Assignee: Integrated Dynamics Engineering GmbHInventors: Arndt Evers, Till Scharf
-
Patent number: 10625722Abstract: A method for producing a hydraulic block of a slip-controlled hydraulic non-muscular-energy vehicle brake system. For the milling operation, the hydraulic block is clamped in two setups and a pump bore, into which the hydraulic block is clamped in the second setup, is produced in the hydraulic block in the first setup, thereby making it possible to machine five sides of the hydraulic block in the second setup free of clamping arrangement. Also described is a related hydraulic block.Type: GrantFiled: August 28, 2017Date of Patent: April 21, 2020Assignee: Robert Bosch GmbHInventors: Andreas Weh, Juergen Tandler, Matthias Mayr, Thomas Geisenberger, Wolfgang Frodl
-
Patent number: 10619697Abstract: A hydraulic engine mount is provided in which related components out of two or more internal parts are coupled to reduce the number of components and to prevent oil leakage occurring due to coupling of the parts. The hydraulic engine mount includes a core that has a central bolt inserted into a central portion thereof, a rubber member formed on an outer circumferential surface of the core, upper and lower fluid chambers to seal a fluid therein. A diaphragm is disposed at a lower end of the lower fluid chamber and an orifice assembly divides the upper and lower fluid chambers from each other and has nozzle upper and lower plates. A nozzle upper plate-combined case that has a flow path is formed integrally with a lower part of the rubber member, and a lower part of the flow path is hermetically sealed by the nozzle lower plate.Type: GrantFiled: November 30, 2017Date of Patent: April 14, 2020Assignees: Hyundai Motor Company, Kia Motors Corporation, Pyung Hwa Industrial Co., Ltd.Inventors: Sang-Hoon Han, Byeong-Gon Lee
-
Patent number: 10618414Abstract: A hydraulic brake system for a land vehicle includes a brake pedal; a wheel brake; and a master brake cylinder connected to the brake pedal by a brake booster and a pump. The outlet of the pump is connected to the wheel brake by a supply line and the inlet is connected to the wheel brake by a return line. The pump moves hydraulic fluid to the wheel brake. A temporary store is connected to the inlet of the pump and the wheel brake by the return line. A pressure reduction valve, arranged in the return line of the wheel brake, has a throttling effect in the open state. A control unit compensates for the difference between a total braking torque specified by the brake pedal and a generating braking torque provided by an electric machine by setting the hydraulic braking torque during a regenerative braking process of the vehicle.Type: GrantFiled: November 18, 2013Date of Patent: April 14, 2020Assignee: Lucas Armstrong GmbHInventors: Josef Knechtges, Andreas Marx
-
Patent number: 10619692Abstract: A damper includes a piston provided with a rod, and a cylinder storing the piston, and generates a braking force by a movement or relative movement of the piston. The cylinder is provided with width-side wall portions and thickness-side wall portions, and a shape in a cross section of the cylinder in a direction orthogonal to a moving direction of the piston is flat. The cylinder has a connection portion on an open side thereof, and the connection portion bridges the width-side wall portions.Type: GrantFiled: May 11, 2016Date of Patent: April 14, 2020Assignee: NIFCO INC.Inventor: Shigemitsu Tomita
-
Patent number: 10611352Abstract: A sensor device, active brake booster, and method for a braking system, including an active brake booster for carrying out/boosting an autonomous or partially autonomous brake pressure buildup, including an electronic device, which, at least during the autonomous or partially autonomous brake pressure buildup by the active brake booster, is configured, based on at least one deformation variable, provided externally or established by the sensor device, as to a deformation of the active brake booster, and/or a tensile force which effectuates the deformation and is exerted on a brake pedal, to output at least one activation signal to a warning display device and/or to a warning sound output device and/or at least one control signal to the active brake booster, to control the latter at least for a predefined first time interval into a safety mode or to interrupt the latter at least for a predefined second time interval.Type: GrantFiled: April 7, 2015Date of Patent: April 7, 2020Assignee: Robert Bosch GmbHInventors: David Rubia Serrano, Eduardo Herrera Lopez, Manfred Gerdes, Peter Ziegler