| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 123321000 | Valve timing altering means (e.g., axially sliding cam shaft) | 62 |
| 20080210197 | Method for exhaust gas temperature control via engine braking in an internal combustion engine - Systems for, and methods of, controlling exhaust gas temperature in a multi-cylinder internal combustion engine during positive power operation of the engine are disclosed. Control of exhaust gas temperature may be desired to improve emissions performance in the engine, which is often dependent upon exhaust gas temperature. One or more temperature probes may be used to first determine the actual exhaust gas temperature of the engine while it is operated in a positive power mode. Next, an ECM or similar device may be used to determine a temperature difference between the actual exhaust gas temperature and a desired exhaust gas temperature for emissions performance. Based on the determined temperature difference, one or more cylinders of the engine may continue to be operated in positive power mode while one or more cylinders of the engine are switched to operating in a selected engine braking mode. The operation of some cylinders in positive power mode while operating other cylinders in engine braking mode may cause the actual exhaust gas temperature to change and more closely match the desired exhaust gas temperature. | 09-04-2008 |
| 20080223333 | Control Method For the Intake and Exhaust Valves of and Engine and Internal Combustion Engine Comprising Such Valves - This method is for controlling the intake and exhaust valves of the cylinders of an internal combustion engine which is capable of operating either in four-stroke positive mode or in two-stroke braking mode. The control means pilot the valves so that at least a first exhaust valve of each cylinder ( | 09-18-2008 |
| 20090038584 | Internal combustion engine - In an internal combustion engine which is alternatively operated in a powered four-stroke engine driving mode and in a two-stroke engine braking mode with an inlet and an outlet valve stroke curve control device which is provided for adjusting the stroke of both the inlet and of the outlet valves, the valve stroke curve control device holds the outlet valve continuously open in the engine braking mode. | 02-12-2009 |
| 20090071436 | Gas exchange valve actuating device - In a gas exchange valve actuating device having a lever for transmitting a drive movement to at least one gas exchange valve of an engine braking control unit of an internal combustion engine, the internal combustion engine includes a compact braking control unit which is coupled to the valve operating lever for controlling actuation of the gas exchange valves in a braking mode of engine operation. | 03-19-2009 |
| 20090078233 | ENGINE BRAKE PROCEDURE - The invention concerns a procedure for the braking of a vehicle, especially a motor vehicle, that is operated by a combustion engine, at which the braking torque is initiated into a drive train of the vehicle, by compressing gas in at least one cylinder of the combustion engine during the compression stroke and by discharging the compressed gas at the end of the compression stroke through at least one opened outlet valve from the cylinder. It is provided that the outlet valve is slightly opened before or during the compression stroke and widely opened at the end of the compression stroke. | 03-26-2009 |
| 20090139486 | Gas exchange valve actuating device - In a gas exchange valve actuating device for transmitting a drive movement to at least one gas exchange valve of an internal combustion engine which includes a braking unit having at least one actuator, the gas exchange valve actuating device is provided with a locking unit for locking the actuator counter to an opposing force when the actuator has reached a specific position. | 06-04-2009 |
| 20100006062 | Engine braking apparatus with mechanical linkage and lash adjustment - Apparatus for modifying engine valve lift to produce an engine valve event in an internal combustion engine comprises actuation means ( | 01-14-2010 |
| 20100037854 | Apparatus and method for engine braking - Apparatus and method are disclosed for converting an internal combustion engine from a normal engine operation ( | 02-18-2010 |
| 20100065019 | APPARATUS AND METHOD FOR ENGINE BRAKING - Apparatus and method are disclosed for converting an internal combustion engine from a normal engine operation ( | 03-18-2010 |
| 20100108026 | Bias System For Dedicated Engine Braking Rocker Arm In A Lost Motion System - A lost motion valve actuation system includes an engine brake housing and one or more hydraulic fluid supply passages extending through the housing. Master and slave pistons are slidably disposed corresponding bores in the housing. The master and slave pistons are used to provide selective actuation to one or more engine valves. An engine brake rocker arm disposed adjacent to the housing includes a master piston contact surface and a bias mechanism contact surface. A bias mechanism is disposed in the housing and includes a bias piston which extends from the housing. The bias piston biases the rocker arm out of contact with an engine cam during select engine operation modes, such as during a positive power mode of operation. The bias piston may be mechanically or hydraulically repositioned to permit the rocker arm to contact the engine cam during a second mode of engine operation, such as an engine braking mode. | 05-06-2010 |
| 20100139616 | DEVICE FOR ACTUATING THE DECOMPRESSION ENGINE BRAKE IN AN INTERNAL COMBUSTION ENGINE - A device for actuating the decompression engine brake in an internal combustion engine provided with hydraulic tappets is described, characterized by: an additional rocker arm ( | 06-10-2010 |
| 20100170471 | ENGINE BRAKING APPARATUS WITH TWO-LEVEL PRESSURE CONTROL VALVES - Apparatus and method are disclosed for converting an internal combustion engine from a normal engine operation ( | 07-08-2010 |
| 20100170472 | INTEGRATED ENGINE BRAKE WITH MECHANICAL LINKAGE - Apparatus and method are disclosed for converting an internal combustion engine from a normal engine operation ( | 07-08-2010 |
| 20100180860 | Valve drive train actuating device - In a valve drive train actuating device, particularly for an internal combustion engine, having at least one firing camshaft, which can be phase shifted relative to a crankshaft by means of a firing camshaft adjusting device and a decompression brake device comprising at least one brake cam and at least one decompression valve, the valve drive train actuating device comprises an adjusting device for adjusting a decompression valve drive actuating point in time depending on the speed of the crankshaft of the engine. | 07-22-2010 |
| 20100186710 | EXHAUST VALVE MECHANISM FOR AN INTERNAL COMBUSTION ENGINE - In an exhaust valve mechanism for an internal combustion engine the main rocker arm is mounted on a rocker arm shaft for normal valve operation via a cam element. A secondary rocker arm is mounted on the shaft for activation of an exhaust brake mode. The activation is achieved through supply of hydraulic pressure to a piston cylinder arrangement acting between the main and secondary rocker arms. A master piston and a slave piston are connected by a hydraulic-link allowing activation by increased hydraulic pressure. When activating the exhaust gas temperature increasing mode, the master piston is moved to an active position for part of its stroke against the force of a first resilient member. When activating the exhaust brake mode, the master piston is moved the full movement of its stroke against the combined forces of the first resilient member and a second resilient member as active position. The end of the first stroke length defines a position for the master piston allowing activation of an extra valve event. | 07-29-2010 |
| 20100212625 | VALVE TRAIN OF A RECIPROCATING PISTON COMBUSTION ENGINE - In a valve train of a reciprocating piston combustion engine, comprising cylinders controlled by at least three valves ( | 08-26-2010 |
| 20100258079 | ENGINE BRAKE DETECTION - In a method for reducing engine vibrations during engine braking with a malfunctioning engine brake, the engine brake includes an arrangement for altering a timing of at least one exhaust valve and an arrangement for varying an exhaust gas back pressure. The method includes detecting piston acceleration for each cylinder in the engine during the use of the engine brake, comparing the detected piston acceleration with a predetermined reference value, decreasing exhaust gas back pressure during engine braking if at least one piston is detected with a piston acceleration deviating more than a predefined amount from the predetermined reference value so that the piston acceleration will be falling within the predefined amount from the predetermined reference value. | 10-14-2010 |
| 20100288229 | VALVE MECHANISM FOR AN ENGINE - An internal combustion engine has intake ( | 11-18-2010 |
| 20100300403 | Engine braking apparatus with mechanical linkage and lash adjustment - Apparatus for modifying engine valve lift to produce an engine valve event in an internal combustion engine comprises actuation means ( | 12-02-2010 |
| 20100307451 | COMPRESSION RELEASE ENGINE BRAKE UNIT - A compression release engine brake unit includes an oil outlet passage formed in a socket brake, which stores engine brake oil, and a reset member opening or closing the outlet passage. The reset member discharges the engine brake oil by opening the oil outlet passage in response to the rotation of a rocker arm during engine braking and, thereby, the engine brake restores the initial state. Since the compression release engine brake can restore the initial state, the return valve lift is the same as when the compression release engine brake is not actuated. Accordingly, the valve does not butt against an engine piston. | 12-09-2010 |
| 20100319657 | METHOD AND SYSTEM FOR SINGLE EXHAUST VALVE BRIDGE BRAKE - Systems and methods for providing compression-release and partial bleeder braking engine valve actuation are disclosed. In an embodiment of the present invention, a cam may be provided with a main exhaust lobe and a compression-release or partial bleeder lobe and a base circle portion between the two lobes. A rocker arm including an internal rocker passage may be operatively connected to the cam. The rocker arm may contact a valve bridge at a central portion. The valve bridge may be operatively connected to first and second engine valves at its first and second ends, respectively. A slave piston incorporated into the first end of the valve bridge and a master piston may be incorporated into the central portion of the valve bridge. A hydraulic circuit may be provided between the master and slave pistons. The master and slave pistons may be selectively actuated and the bleed hole may be selectively blocked and unblocked to provide compression-release or partial bleeder braking as a result of the valve actuation motion imparted from the cam to the valve bridge through the rocker arm. | 12-23-2010 |
| 20110023821 | ENGINE BRAKE UNIT - An engine brake unit may include a rocker arm having a first space defined in a valve-pressing portion thereof, wherein the first space communicates with a supply passage, through which engine brake oil is introduced, a stopper fixedly provided above the first space of the rocker arm in a predetermined distance, an actuator located inside the first space and having a pressure piston, wherein the pressure piston is selectively raised by hydraulic pressure of the engine brake oil to butt against the stopper, thereby pressing a portion of the rocker arm downwards. | 02-03-2011 |
| 20110067673 | ENGINE BRAKING SYSTEM FOR VEHICLES - An engine braking system for vehicles may include a rocker shaft having a lubricating oil passage and a braking oil passage, a valve unit selectively supplying part of the oil supplied to the lubricating oil passage, into the braking oil passage, and at least one exhaust rocker arm, into which the rocker shaft is inserted and pivotal about the rocker shaft, wherein the at least one exhaust rocker arm has, therein, a first connection passage communicating with the braking oil passage and a first recess, a stopper fixed above the first recess, and an actuator housed in the first recess and including a pressing piston, wherein the pressing piston moves to contact the stopper by hydraulic pressure of the oil supplied from the braking oil passage into the first recess and thus presses the at least one exhaust rocker arm in a downward direction. | 03-24-2011 |
| 20110073068 | ENGINE BRAKE UNIT HAVING COMBINED OIL PASSAGE - An engine brake unit, may include a rocker shaft having an oil passage to open or close an exhaust valve when an engine braking is in operation, an exhaust rocker arm rotatable about the rocker shaft inserted into the exhaust rocker arm, wherein the exhaust rocker arm includes a supply oil passage communicating with the oil passage and the outside, and a recess connected to the supply oil passage and having an open lower portion, an actuator disposed in the recess of the exhaust rocker arm, wherein the actuator includes a piston that selectively moves downwards through the open lower portion of the recess by oil supplied from the supply oil passage to press the exhaust rocker arm while oil pressure in the oil passage has a predetermined pressure or more, and an oil control valve connected to the oil passage of the rocker shaft and controlling the oil pressure. | 03-31-2011 |
| 20110079195 | Internal Combustion Engine Having A Motor Brake Assembly - An internal combustion engine includes an exhaust valve for removing exhaust gas from a combustion chamber and an engine braking device with a hydraulic valve control unit by which the exhaust valve is held in an intermediate open position when the engine braking device is actuated. The internal combustion engine includes a hydraulic valve lash compensation mechanism for the exhaust valve and a control channel formed between the hydraulic valve control unit and an oil feed channel for feeding oil to the hydraulic valve control unit which can be closed by a closure element to compensate for valve lash of the exhaust valve. A counter-holder is constructed as a piston-cylinder unit that forms a variable stop for a valve bridge cooperating with the valve lash compensation mechanism. | 04-07-2011 |
| 20110079196 | Internal Combustion Engine Having A Motor Brake Assembly - An internal combustion engine includes an exhaust valve for removing exhaust gas from a combustion chamber and an engine braking device with a hydraulic valve control unit by which the exhaust valve can be held in an intermediate open position when the engine braking device is actuated. A hydraulic valve lash compensation mechanism for the exhaust valve and a control channel formed between the hydraulic valve control unit and the valve lash compensation mechanism for feeding oil to the hydraulic valve control unit that can be closed by a closure element to compensate for the valve lash of the exhaust valve. A counter-holder is constructed as a piston-cylinder unit. The counter-holder forms a variable stop for a valve bridge cooperating with the valve lash compensation mechanism. | 04-07-2011 |
| 20110083639 | CYLINDER DEACTIVATION TO REDUCE FUEL ENRICHMENT AFTER FUEL CUTOFF MODES - A system includes a fuel cutoff module and a cylinder deactivation module. The fuel cutoff module generates a fuel cutoff signal when a deceleration fuel cutoff condition occurs, wherein fueling to M cylinders of an engine is disabled based on the fuel cutoff signal, and wherein M is an integer greater than or equal to one. The cylinder deactivation module deactivates the M cylinders in response to the fuel cutoff signal. | 04-14-2011 |
| 20110114060 | ENGINE BRAKE AND ENGINE PROVIDED WITH THE SAME - An engine brake may include a rocker shaft, a rocker arm pivoting around the rocker shaft, an actuator piston disposed to the rocker arm and selectively protruded there from, a stopper disposed to a corresponding position of the actuator piston for the rocker arm to open a valve when the actuator piston is protruded and a hydraulic pressure supply portion selectively supplying hydraulic pressure to the actuator piston. | 05-19-2011 |
| 20110120411 | SOLENOID CONTROL FOR VALVE ACTUATION IN ENGINE BRAKE - An apparatus and method for varying a counter force to valve spring preload of a brake exhaust valve to undertake engine braking, includes a solenoid controlled hydraulic actuator. A control cylinder is arranged to move with a rocker arm and a control piston is arranged to slide within the control cylinder. During engine braking the control piston slides to press the valve stem to open the brake exhaust valve. An oil chamber is arranged above the control piston and is open into the control cylinder. A source of pressurized oil is selectably introduced into the oil chamber by the solenoid controlled hydraulic actuator to slide the control piston within the control cylinder to open and hold open the brake exhaust valve. | 05-26-2011 |
| 20110186008 | ENGINE BRAKING DEVICE FOR AN INTERNAL COMBUSTION ENGINE - The invention relates to an engine braking device ( | 08-04-2011 |
| 20110220061 | Compression Brake System for an Engine - A compression brake system of an internal combustion engine includes a mechanical system for coupling a camshaft to a brake actuator assembly. The mechanical system includes a stationary housing defining an aperture and a lifter is slidably disposed in the aperture. A resilient element is disposed between the housing and the shoulder and configured to bias the lifter toward the camshaft. The mechanical system is dedicated to compression braking, and therefore the camshaft may have a lobe optimized for braking. | 09-15-2011 |
| 20110220062 | INTERNAL COMBUSTION PISTON ENGINE WITH A COMPRESSION RELIEF ENGINE BRAKE - An internal combustion piston engine based on a four-stroke process, including a crankcase in which at least one cylinder/piston assembly is arranged, the piston being guided by a connecting rod connected to a crankshaft. At least one cylinder head closes the cylinder, each of whose intake and exhaust channels are controlled by at least one intake valve and one exhaust valve ( | 09-15-2011 |
| 20110277729 | Compression-braking system - A method is disclosed for controlling compression-braking performance of an engine having a piston in a combustion cylinder. The method may include providing a valve in fluid communication with the combustion cylinder and at least one valve actuator operable to control the valve to perform compression-braking by opening the valve, which may include opening the valve to a first peak-valve-opening during a compression stroke of the piston and opening the valve to a second peak-valve-opening before a second half of an expansion stroke of the piston. The method may also include determining a target value for a stress in the at least one valve actuator. Additionally, the method may include designing the magnitude and timing of the first peak-valve-opening as a function of the target for the stress in the at least one valve actuator. | 11-17-2011 |
| 20120024260 | COMBINED ENGINE BRAKING AND POSITIVE POWER ENGINE LOST MOTION VALVE ACTUATION SYSTEM - A system for actuating one or more engine valves for positive power operation and engine braking operation is disclosed. In a preferred embodiment, an exhaust valve bridge and intake valve bridge each receive valve actuations from two sets of rocker arms. Each valve bridge includes a sliding pin for actuating a single engine valve and an outer plunger disposed in the center of the valve bridge to actuate two engine valves through the bridge. The outer plunger of each valve bridge may be selectively locked to its valve bridge to provide positive power valve actuation. During engine braking, application of hydraulic pressure to the outer plungers may cause the respective valve bridges and outer plungers to unlock so that all engine braking valve actuations are provided from a rocker arm acting on one engine valve through the sliding pin. | 02-02-2012 |
| 20130042835 | VEB EXCENTER RESET - A valve mechanism for an internal combustion engine is operable to selectively open and close a gas exchange valve to accomplish an engine brake during an engine brake mode of an engine. The valve mechanism includes a cam follower in biased abutment against a gas exchange cam element for actuation of a rocker arm connected to the gas exchange valve. | 02-21-2013 |
| 20130068194 | SIMULTANEOUSLY FIRING TWO CYLINDERS OF AN EVEN FIRING CAMLESS ENGINE - A valve control system includes an engine speed control module that determines an engine speed and a desired engine stop position. A piston position module determines a desired stopping position of a first piston based on the desired engine stop position. A valve control module receives the desired stopping position, commands a set of valves to close at the desired stopping position if the engine speed is less than a predetermined shutdown threshold, and commands the set of valves to reduce the engine speed if the engine speed is greater than the predetermined shutdown threshold. | 03-21-2013 |
| 20130068195 | METHOD AND SYSTEM FOR ENGINE CYLINDER DECOMPRESSION - A system for actuating an engine valve to decompress an engine cylinder for engine start up and/or engine braking is disclosed. The system may include a first member, such as an outer piston, disposed above an engine valve, which receives an inner piston extending into a bore provided in the first member. One or more springs may bias the inner piston into a predefined position in the first member. The inner piston may include a lower surface that directly, or through an intervening sliding pin, actuates an engine valve in response to the application of fluid pressure on the inner piston. The inner piston may be used to decompress an engine cylinder for engine start up and/or to provide engine braking. | 03-21-2013 |
| 20130139786 | METHOD AND SYSTEM FOR PRE-IGNITION CONTROL - Methods and systems are provided for addressing pre-ignition that may be induced in response to actions taken to mitigate a cylinder misfire. An amount of engine load limiting applied may be adjusted to reduce the likelihood pre-ignition while also addressing component over-temperature issues. By limiting an engine load while shutting off fuel in a misfiring cylinder, and while combusting a lean air-fuel mixture in the remaining cylinders, pre-ignition induced by the misfire-mitigating lean combustion conditions can be reduced. | 06-06-2013 |
| 20130152897 | Vehicle Control System - A method is provided for controlling an engine via an outlet control device of an intake manifold, such as via variable valve lift operation. The engine may further include an inlet control device, such as an electronic throttle, as well as coordination between the inlet and outlet control devices for controlling airflow in the engine. | 06-20-2013 |
| 20130220272 | ENGINE CONTROL APPARATUS | 08-29-2013 |
| 20130255624 | Method And Device For Controlling The Engine Braking Operation In Internal Combustion Engines - A method and a device for controlling the engine braking operation in internal combustion engines for motor vehicles, wherein the internal combustion engine is operated with direct injection of fuel and a controllable brake flap is provided in the exhaust gas system for retaining exhaust gases in the engine braking operation, and moreover has an exhaust gas recirculation device having an EGR valve that is arranged upstream of the brake flap and a recirculation line that connects the exhaust gas system to the intake system of the internal combustion engine and during the driving operation controls a defined quantity of recirculated exhaust gas with respect to the combustion air. To avoid critical excessive temperatures at the injection valves, in the engine braking operation (MB), the EGR valve ( | 10-03-2013 |
| 20130298867 | RETARDING SYSTEM - A machine includes a power source, an engine retarder associated with the power source, and a traction device receiving power from the power source and configured to propel the machine. The machine also includes a brake mechanism associated with the traction device, and a controller in communication with the engine retarder and the brake mechanism. The controller is configured to activate the engine retarder, substantially simultaneously with the brake mechanism, based on a brake pressure associated with the brake mechanism. | 11-14-2013 |
| 20140130774 | VALVE ACTUATION MECHANISM AND AUTOMOTIVE VEHICLE COMPRISING SUCH A VALVE ACTUATION MECHANISM - A valve actuation mechanism includes rockers moved by a camshaft, each rocker being adapted to exert a valve opening force on at least a portion of a valve opening actuator of each cylinder, via an activation piston, housed in a bore of the rocker and movable with respect to the rocker under action of a fluid pressure raise in a chamber fluidly linked to the bore, from a first position to a second position, in which a cam follower of the rocker reads at least one auxiliary cam sector of a cam of the camshaft so as to perform an engine operating function. Each rocker includes a reset valve adapted to reduce fluid pressure in the chamber. The valve actuation mechanism includes, for each rocker, a reset cam profile adapted to open the reset valve when the activation piston has to be moved from its second position to its first position, and each reset valve includes a cam follower adapted to drive the reset valve as a function of the movement of the reset profile. | 05-15-2014 |
| 20140202422 | CONTROLLING CYLINDER USAGE DURING REDUCED LOAD ON AN INTERNAL COMBUSTION PROPULSION ENGINE - While an engine is miming with all engine cylinders being fueled, a historical record of engine output torque and engine speed is compiled. When the historical record discloses a change in engine operation from a relatively greater output torque and engine speed to a relatively lesser output torque and speed, fueling of at least one engine cylinder ceases while engine output torque and engine speed remain substantially unchanged at the relatively lesser output torque and speed by continuing fueling of other engine cylinders and by causing at least one mechanism to control the timing of operation of cylinder intake and exhaust valves of the at least one engine cylinder to substantially minimize pumping loss attributable to the at least one engine cylinder. | 07-24-2014 |
| 20140202423 | METHOD FOR CONTROLLING A MOTOR-VEHICLE PROVIDED WITH AN INTERNAL COMBUSTION ENGINE HAVING A SYSTEM FOR VARIABLE ACTUATION OF THE INTAKE VALVES - A motor vehicle provided with an internal combustion engine having a system for variable actuation of the intake valves has a phase of activation of an operating mode with the engine off and the vehicle moving, in which the fuel supply to the engine is cut-off. After the cut-off of the fuel supply to the engine, the system for variable actuation of the intake valves is controlled to vary the opening time and/or closing time and/or the lift of the intake valves so as to control the losses due to the pumping effect which occur within the engine in cut-off condition. | 07-24-2014 |
| 20140245992 | COMBINED ENGINE BRAKING AND POSITIVE POWER ENGINE LOST MOTION VALVE ACTUATION SYSTEM - A system for actuating one or more engine valves for positive power operation and engine braking operation is disclosed. In a preferred embodiment, an exhaust valve bridge and intake valve bridge each receive valve actuations from two sets of rocker arms. Each valve bridge includes a sliding pin for actuating a single engine valve and an outer plunger disposed in the center of the valve bridge to actuate two engine valves through the bridge. The outer plunger of each valve bridge may be selectively locked to its valve bridge to provide positive power valve actuation. During engine braking, application of hydraulic pressure to the outer plungers may cause the respective valve bridges and outer plungers to unlock so that all engine braking valve actuations are provided from a rocker arm acting on one engine valve through the sliding pin. | 09-04-2014 |
| 20140251266 | Auxiliary Valve Motions Employing Disablement of Main Valve Events and/or Coupling of Adjacent Rocker Arms - In controlling valve motions of an internal combustion engine, after determining that engine braking operation has been initiated, a deactivation mechanism disposed within a main valve train is activated thereby disabling conveyance of main valve events from a main valve motion source to a valve via the main valve train. Engine braking valve events are enabled for the valve, which may include two-stroke engine braking. Coupling mechanisms, including one-way coupling mechanisms, between adjacent rocker arms may be used in this manner. | 09-11-2014 |
| 20140326212 | Lost Motion Valve Actuation Systems with Locking Elements Including Wedge Locking Elements - A system for actuating one or more engine valves comprises a lost motion assembly including locking elements to selectively lock and unlock a locking mechanism disposed within a valve train such that motions may be likewise selectively applied to, or prevented from being applied to, one or more engine valves. In an embodiment, the locking elements comprise wedges having at least one wedge inclined surface defined according to a cone frustum and configured to engage an outer recess formed in a housing, the outer recess comprising an outer recess inclined surface also defined according to the cone frustum. The device may comprise a locking mechanism disposed within a housing bore in the housing and a snubber also disposed in the housing bore. Furthermore, the outer recess may be configured to permit movement of the locking element along a longitudinal axis of the housing bore. | 11-06-2014 |
| 20140373808 | ENGINE SYSTEM AND OPERATION METHOD USING ENGINE BRAKING MECHANISMS FOR EARLY EXHAUST VALVE OPENING - A valve actuation system for an internal combustion engine is disclosed. The engine has a first set of cylinders having a first set of exhaust valves and a second set of cylinders having a second set of exhaust valves. The valve actuation system for the exhaust valves includes one or more first cams having a compression-release lobe and a main exhaust lobe adapted to transfer valve actuation motion to the first set of exhaust valves, and one or more second cams having an early exhaust valve opening (EEVO) lobe and a main exhaust lobe adapted to transfer valve actuation motion to the second set of exhaust valves. The valve actuation system may provide any combination of (i) main exhaust valve actuation with or without compression release actuation with (ii) main exhaust valve actuation with or without EEVO for the two sets of cylinders. | 12-25-2014 |
| 20150101567 | INTEGRATED ENGINE BRAKE - An integrated engine brake assembly may include a valve that forces oil circulating through an engine to flow to an exhaust rocker arm when an engine brake lever is operated, a bridge that forms an interval with a pair of first and second exhaust valves installed on a combustion chamber, an internal oil flow path which supplies the oil flowing toward the exhaust rocker arm to the bridge through an internal space of the exhaust rocker arm, and along which the oil is supplied to the bridge and brings the bridge into contact with the pair of first and second exhaust valves under pressure, and a protrusion lifting up the exhaust rocker arm at a compression top dead center so that the pair of first and second exhaust valves are pressed and opened forcibly by the bridge, and the bridge is pressed by seesaw movement of the exhaust rocker arm. | 04-16-2015 |
| 20150122220 | HYDRAULIC LASH ADJUSTER - A hydraulic lash adjuster for an engine valve train has a hydraulic lash adjusting arrangement for automatically compensating for lash in an engine valve train, and a lost motion arrangement for inhibiting motion induced in the valve train in response to a lift profile of a rotating cam from being transferred to an engine valve. | 05-07-2015 |
| 20150144096 | COMPRESSION-RELEASE ENGINE BRAKE SYSTEM FOR LOST MOTION ROCKER ARM ASSEMBLY AND METHOD OF OPERATION THEREOF - A compression-release brake system comprises an exhaust rocker arm, an actuation piston slidable in a piston bore in the exhaust rocker arm so as to press an exhaust valve, a supply conduit formed within the exhaust rocker arm, and an exhaust valve reset device mounted to the exhaust rocker arm. The actuation piston defines an actuation piston cavity within the actuation piston bore between the piston bore and the actuation piston. The exhaust valve reset device includes a reset check valve disposed between the supply conduit and the actuation piston cavity to hydraulically lock the actuation piston cavity by closing the reset check valve when a pressure of the hydraulic fluid within the actuation piston cavity exceeds the pressure of the hydraulic fluid in the supply conduit. The reset check valve is biased closed by the pressure of the hydraulic fluid within the actuation piston cavity during the brake-on mode. | 05-28-2015 |
| 20160025018 | COMPRESSION RELIEF BRAKE RESET MECHANISM - An internal combustion engine with a braking system comprising a rocker lever, a rocker lever valve and a biasing member selectively preventing contact between a brake lift portion of a cam and a cam follower supported by the rocker lever. Fluid pressures in a first fluid circuit and a second fluid circuit selectively actuate the rocker lever valve to open an exhaust valve and cause brake events. | 01-28-2016 |
| 20160138488 | EXHAUST CAM NON CONNECTION ENGINE BRAKE, VEHICLE HAVING THE SAME AS AUXILIARY BRAKE, AND METHOD FOR CONTROLLING THE SAME - An exhaust cam non connection engine brake includes a housing body having a high pressure storing chamber which converts a low pressure oil to a high pressure oil and stores therein in order to allow the high pressure oil to flow toward an exhaust rocker arm so that the exhaust rocker arm presses an exhaust valve by the high pressure oil when an engine brake signal is applied. | 05-19-2016 |
| 20160160711 | APPARATUS FOR RESETTING AN ENGINE BRAKE USING DECOMPRESSING - An apparatus for resetting an engine brake to be able to exhibit a braking force by opening an exhaust valve at the close of a compression stroke of an engine to prevent combustion includes a housing configured to introduced with pressurized oil from the engine brake and to discharge the oil to the outside depending on an operation of a rocker arm of the engine brake, a check plate configured to be elastically supported within an inside of the housing to control oil introduced into the housing, a piston configured to be accommodated in the check plate and slid when the inside of the housing is filled with oil to discharge the oil, and a reset pin configured to be elevatably installed at one side of the housing to form a passage through which the oil is discharged from the housing to the outside. | 06-09-2016 |
| 20160252021 | A VALVE TRAIN ASSEMBLY | 09-01-2016 |
| 20190145291 | ROCKER ARM ASSEMBLY FOR ENGINE BRAKING | 05-16-2019 |
| 123322000 | Electrical means adapted to alter valve timing | 5 |
| 20100108027 | VARIABLE VALVE ACTUATION SYSTEM OF INTERNAL COMBUSTION ENGINE - In a variable valve actuation system of an internal combustion engine employing a variable valve actuator capable of variably adjusting at least intake valve closure timing depending on engine operating conditions, a processor of a control unit is programmed to phase-advance the intake valve closure timing to a predetermined timing value after a piston top dead center position and before a piston bottom dead center position on intake stroke during at least one of an engine starting period and an engine stopping period. The variable valve actuator includes a biasing device by which the intake valve closure timing is permanently biased toward the predetermined timing value. | 05-06-2010 |
| 20110100324 | HIGH-TEMPERATURE-FLOW ENGINE BRAKE WITH VALVE ACTUATION - A control system and method for engine braking for a includes an engine braking control and at least one exhaust valve actuator responsive to demands from the braking control for causing the exhaust valve to open. The braking control is configured to command the exhaust valve actuator to substantially open and substantially close the exhaust valve at least twice during each engine cycle, a first event and a second event, when the pressure within the exhaust manifold is greater than the pressure in the cylinder. The braking control can also command the exhaust valve actuator to substantially open and substantially close during a third event between the first and second events. | 05-05-2011 |
| 20110203549 | INTERNAL COMBUSTION PISTON ENGINE WITH ENGINE BRAKING BY OPENING OF EXHAUST VALVES - An internal combustion piston engine based on a four-stroke process, including a crankcase in which at least one cylinder/piston assembly is arranged, a piston is guided via a connecting rod connected to a crankshaft, at least one cylinder head for closing the cylinder, each of whose intake and exhaust channels are controlled by at least one intake valve and one exhaust valve ( | 08-25-2011 |
| 20130319370 | METHOD AND APPARATUS FOR RESETTING VALVE LIFT FOR USE IN ENGINE BRAKE - A method and apparatus for resetting a valve lift for use in an engine brake. A brake piston ( | 12-05-2013 |
| 20160090931 | CONTROL APPARATUS FOR ENGINE - A control apparatus for an engine is provided. The control apparatus includes an intake control valve controller for fully closing, when an engine stop request is issued, an intake control valve for adjusting a flow rate of intake air passing through an intake passage of the engine, an engine speed increase controller for increasing an engine speed to reach a target speed after the intake control valve is fully closed by the intake control valve controller, and a fuel injection stopper for stopping a fuel injection after the engine speed is increased by the engine speed increase controller. | 03-31-2016 |
