| Entries |
| Document | Title | Date |
|---|
| 20080202483 | REDUCED-EMISSION SINGLE CYLINDER ENGINE - An engine having an operating orientation includes an engine housing having a crankcase and a single cylinder bore, and a single piston configured to reciprocate within the single cylinder bore to generate pressure pulses in the crankcase. A breather chamber is at least partially defined by the crankcase and is disposed adjacent the single cylinder bore. The breather chamber includes a lowermost wall in the operating orientation that defines a drain aperture through which a lubricant flows into the crankcase. A breather cover is coupled to the crankcase and cooperates with the crankcase to fully define the breather chamber. The breather cover includes a bottom in the operating orientation and a wall extending substantially vertically from the bottom in the operating orientation to at least partially define a cover space. The breather cover defines an air-lubricant mixture aperture configured to allow for the passage of the air-lubricant mixture into the cover space. The wall defines a cover space drain aperture spaced a first non-zero distance above the bottom to facilitate the discharge of lubricant from the cover space to the breather chamber. The cover space drain aperture is spaced a second non-zero distance above the drain aperture when the engine is in the operating orientation. | 08-28-2008 |
| 20080223347 | ENGINE PCV SYSTEM WITH HYDROPHOBIC, OLEOPHOBIC MEMBRANE FOR AIR/OIL SEPARATION - An engine crankcase emission control system for an internal combustion engine includes a cylinder air intake system connected to associated engine cylinders. The system also includes an engine crankcase. A crankcase air outlet connects the crankcase to the cylinder air intake system at a location subject to variable intake vacuum pressures to allow crankcase vapors to be drawn into inlet air passing to the cylinders. A hydrophobic, oleophobic membrane covers the crankcase air outlet. The membrane inhibits the passage of oil and water out of the crankcase through the crankcase air outlet. | 09-18-2008 |
| 20080223348 | INTERNAL COMBUSTION ENGINE AND VEHICLE HAVING THE INTERNAL COMBUSTION ENGINE - An engine (internal combustion engine), in accordance with an embodiment, includes: a cylinder head disposed above a crankcase; a cylinder head cover attached to cover an upper side of the cylinder head; and an ignition plug provided with a plug part inserted into the cylinder head and a plug cap disposed outside the cylinder head cover. The cylinder head cover includes a gas passage formed in such a U-shape as to surround the plug cap of the ignition plug as viewed from an insertion side of the ignition plug, the gas passage allowing fuel gas (blow-by gas) containing oil to flow in from the crankcase. | 09-18-2008 |
| 20080236553 | INTERNAL COMBUSTION ENGINE WITH BREATHER SYSTEM - An internal combustion engine including a valve system and a breather system. The valve system includes a camshaft having intake cams and exhaust cams. The intake cams open and close intake valves, and the exhaust cams open and close exhaust valves. The breather system includes an upstream-side breather chamber and a downstream-side breather chamber. Blow-by gas flows into the upstream-side breather chamber through a chain chamber. The down-stream side breather chamber is provided in the camshaft, and also formed of a through hole constituted of a plurality of hole portions. The hole portions have different sizes and are aligned in the axial direction. The through bole opens to the chain chamber at a first shaft end portion of the camshaft, and also opens to the down-stream side breather chamber at a second shaft end portion of the camshaft. The down-stream side breather chamber is formed of a cam holder. | 10-02-2008 |
| 20080257319 | BREATHER DEVICE OF VERTICAL TYPE ENGINE - A breather device of a vertical type engine includes: an engine body having a crank chamber and a cylinder bore; and a timing transmission chamber provided above the engine body and housing a timing transmission device that connects between a crankshaft and a cam shaft which are vertically placed, respectively, the timing transmission chamber communicating at one side with the crank chamber and at the other side with the outside, wherein the breather device includes a breather chamber communicating with the timing transmission chamber via a communication tube, the breather chamber communicating with an intake silencer box. Hence, oil can be efficiently separated from breathing gas of a crank chamber. | 10-23-2008 |
| 20080295814 | Internal Combustion Engine - The invention relates to an internal combustion engine ( | 12-04-2008 |
| 20090071451 | Engine system routing crankcase gases into exhaust - An engine system is disclosed. The engine system has an engine block having at least one combustion chamber and at least partially defining a crankcase. The engine system also has an inlet conduit connecting a compressor of a turbocharger with the at least one combustion chamber. The engine system further has an exhaust conduit connecting a turbine of the turbocharger with the combustion chamber and a ventilation conduit connecting the crankcase with the exhaust conduit. The engine system also has a controller in communication with the turbocharger, the controller being configured to adjust the geometry of the turbocharger to maintain a pressure of the crankcase lower than a pressure of the inlet conduit. | 03-19-2009 |
| 20090101124 | BLOW-BY GAS PROCESSING DEVICE FOR INTERNAL COMBUSTION ENGINE - Blow-by gas in a plurality of crank chambers ( | 04-23-2009 |
| 20090188478 | CRANKCASE FOR INTERNAL COMBUSTION ENGINE - A crankcase that is provided in an internal combustion engine, in which blow-by gas is returned to an intake passage via a gas outflow passage formed in a cylinder block so as to extend in a direction from an upper portion to a lower portion of the cylinder, includes: a partition wall extending in a direction from an upper portion to a lower portion of the crankcase and facing an inner side surface of a crankcase outer wall that also extends in the direction from the upper portion to the lower portion of the crankcase; an internal space that is formed between the partition wall and the inner side surface of the crankcase outer wall and connected to the gas outflow passage at an upper end of the internal space; and a window that is formed on the partition wall to communicate an inside and outside of the internal space. | 07-30-2009 |
| 20090205618 | BREATHER DEVICE IN ENGINE - A blow-by gas introducing passage having a blow-by gas inlet port, an air-cleaner-side breather passage that extends upwardly as branched from the blow-by gas introducing passage so as to communicate with an intake system, and a case-side breather passage that extends downwardly as branched from the blow-by gas introducing passage so as to communicate with an oil chamber are provided to an inner surface of a side cover that is detachably mounted to a timing-gear chamber communicating with a crank chamber. The blow-by gas introducing passage, the air-cleaner-side breather passage, and the case-side breather passage are formed integral with the side cover. | 08-20-2009 |
| 20090241919 | DEVICE FOR SEPARATING LIQUIDS FROM GASES - The invention relates to a device for separating liquids from gases, especially for separating oil particles from blow-by gases of the crankcase ventilation of internal combustion engines. | 10-01-2009 |
| 20090288649 | BLOWBY GAS TREATMENT SYSTEM FOR MULTIPLE CYLINDER ENGINE - In a blowby gas treatment system for a multiple cylinder engine, in which: a first cylinder and a second cylinder are provided to the engine; a first fuel supply device that always operates during operation of the engine is connected to the first cylinder; and a second fuel supply device that is capable of stopping an operation thereof during the operation of the engine is connected to the second cylinder, first and second branch pipes of an intake manifold are connected to the first and second cylinders, and a blowby gas outlet of a breather chamber and a blowby gas inlet opening into the first branch pipe communicate with each other via a breather pipe, the breather chamber collecting a blowby gas of the engine. Accordingly, when any of the cylinders is stopped, it is possible to easily prevent a blowby gas from flowing toward the stopped cylinder. | 11-26-2009 |
| 20090301448 | BLOW-BY GAS RECIRCULATION STRUCTURE FOR INTERNAL COMBUSTION ENGINE - A blow-by gas recirculation structure includes a cylinder head including an intake manifold mounting surface and a cylinder block mounting surface with a first intake passage extending between a first intake opening formed in the intake manifold mounting surface and a first intake port formed in the cylinder block mounting surface, and a second intake passage extending between a second intake opening formed in the intake manifold mounting surface and a second intake port formed in the cylinder block mounting surface. The cylinder head further includes at least one blow-by gas passage for recirculating blow-by gas to the first intake passage. The intake manifold mounting surface has at least one enlarged recess fluidly connected between the blow-by gas passage and the first intake passage, the enlarged recess being disposed between the first and second intake openings and at least partially aligned with centers of the first and second intake openings. | 12-10-2009 |
| 20090308364 | Blowby gas returning apparatus - A blowby gas returning apparatus is mounted in an engine provided with a turbocharger in an intake passage and provided with a blowby gas returning passage for flowing blowby gas generated in the engine to return to the engine. This apparatus comprises an intake bypass passage connecting an upstream side and a downstream side of the intake passage with respect to the turbocharger, and a jet pump for generating negative pressure in the intake bypass passage. An exit of the first blowby gas returning passage is connected to the intake bypass passage through the jet pump. The apparatus further includes a second blowby gas returning passage connecting the intake passage downstream of the throttle valve to a head cover. In the head cover, a PCV valve is placed at an entrance of the second blowby gas returning passage. | 12-17-2009 |
| 20100024788 | Systems and methods for filtering crankcase fumes - A filtration system is disclosed. The filtration system includes a valve lid defining a chamber. The chamber is configured to extend substantially in a second direction. The filtration system also includes a filter element associated with a lower portion of the chamber. The filtration system further includes a passageway in flow communication with the lower portion of the chamber. The passageway is configured to provide flow communication for a mixture of oil vapor and crankcase fumes flowing into the chamber substantially in a first direction and substantially upward direction. The first direction is generally orthogonal to the second direction. The chamber is configured such that the flow of the mixture into the chamber results in at least a portion of the oil vapor collecting in the filter element, and at least a portion of the crankcase fumes flowing through the filter element. | 02-04-2010 |
| 20100077999 | INTERNAL COMBUSTION ENGINE - An internal combustion engine | 04-01-2010 |
| 20100147273 | HEAD COVER OF AN INTERNAL COMBUSTION ENGINE - A part of a ceiling wall ( | 06-17-2010 |
| 20100199958 | Engine Air Management System - An engine air management system is provided for an internal combustion engine generating blowby gas in a crankcase containing engine oil and oil aerosol. The system includes combinations of two or more of an air-oil separator, an air filter, and an acoustic silencer. | 08-12-2010 |
| 20100269803 | INTERNAL COMBUSTION ENGINE - In an internal combustion engine ( | 10-28-2010 |
| 20100269804 | INTAKE PIPE STRUCTURE OF INTERNAL COMBUSTION ENGINE - An intake pipe structure of an engine comprises: a joint pipe unit constituted by a return pipe portion and an intake pipe portion for introducing air into the engine. The return pipe portion has one end connected with the intake pipe portion to return blow-by gas from the engine to the intake pipe portion. The return pipe portion has first and second surface sections respectively extending in the range of first and second lengths from the one end of the return pipe portion, the first surface section smoothly and continuously extending, and the second surface section being shorter than the first surface section. The return pipe portion has a curved surface portion enlarged and curved at its downstream side toward the one end of the return pipe portion, and an opening opened at the one end to the intake pipe portion in the form of non-circular shape. | 10-28-2010 |
| 20110011379 | COMPRESSOR - A compressor for a turbocharger is supplied with crank case ventilation (CCV) gases from the engine which is turbocharged. The CCV gases are piped into an inlet of the compressor housing which supports an insert with an MWE structure. The MWE structure comprises an outer wall and an inner wall with a gas flow passage defined between them. At high r.p.m. of the compressor impeller air flows through the passage to provide more air volume to the impeller and at low r.p.m. excess air is bled out of the passage for recirculation. The CCV gases are directed to a position upstream of an inlet to the gas flow passage where they emerge through an outlet which may be defined in the insert. The CCV gases may be supplied to the outlet via a chamber defined between the insert and the compressor housing. The arrangement provides for improved mixing of CCV gases with the incoming air and does not compromise noise reduction. | 01-20-2011 |
| 20110180050 | INTERNAL COMBUSTION ENGINE - An Otto cycle, Atkinson cycle or supercharged internal combustion engine ( | 07-28-2011 |
| 20110203559 | PCV VALVE MOUNTING STRUCTURES - A mounting structure for mounting a PCV valve includes a mount recess formed in at least one of joint surfaces of a cylinder head and an intake manifold, so that at least a part of the PCV valve can be fitted into the mount recess. | 08-25-2011 |
| 20110315131 | Vacuum Port Having a Flow Disruptor - An intake system of an engine is provided. The intake system including an intake manifold, a vacuum port located in said intake manifold and in an air-flow path downstream of a throttle body and upstream of a plurality of intake runners, the vacuum port including a molded flow disruptor including a cross-beam traversing an outlet of the vacuum port, the cross-beam oriented at an angle between 0 and 90 degrees with respect to an axis of a throat in the intake manifold, and a vacuum passage coupling the vacuum port to a vehicle subsystem. | 12-29-2011 |
| 20120006306 | Housing for an Internal Combustion Engine with a PCV Valve for Crankcase Ventilation, and a Method for Attaching a PCV Valve to a Housing - A housing for an internal combustion engine with a PCV valve for crankcase ventilation, including a valve housing and a valve insert, wherein the valve housing comprises a pressure-side opening which is connected to a pressure space carrying blow-by gases and a suction-side opening which is connected to a suction space, wherein the valve insert includes a valve body displaceably guided in the valve housing and a spring, wherein in an pressure-less state the valve body is pre-loaded towards, and rests on, a valve seat, wherein the valve body, exclusively controlled by a defined positive pressure in the pressure space relative to the suction space, is automatically displaceable to an open position against the force of the spring in order to provide a ventilation opening for blow-by gases between the pressure space and the suction space, wherein the valve housing includes two separate valve housing parts, wherein the valve seat is integrated into a first valve housing part and the first valve housing part is integrated into the housing forming a single piece, and a second valve housing part can be connected to the first valve housing part with the valve insert inserted in between to form a complete valve, and wherein the pressure-side opening is provided in the first valve housing part and the suction-side opening is provided in the second valve housing part. | 01-12-2012 |
| 20120055454 | Fuel Cap Breather Apparatus - An improved breather apparatus for use on fuel tanks is disclosed. The breather apparatus may include a mounting base including a valve seat and at least one venting cavity, a valve mounted on the valve seat, and a cover operatively associated with the mounting base. The cover may include at least one venting cavity connected to the venting cavity of the mounting base. The breather apparatus may also include an air filter operatively connected to the valve. Methods of assembling and using the disclosed breather apparatus are also disclosed. | 03-08-2012 |
| 20120145135 | ATTACHMENT STRUCTURE OF VACUUM PUMP - The inside in an engine case is sucked to turn a pressure in the engine case into a negative pressure. A breather chamber is disposed above a vacuum pump. An intake port of a blow-by gas is disposed in an upper portion of the vacuum pump. A discharge port of the blow-by gas is disposed in a lower portion of the vacuum pump. | 06-14-2012 |
| 20120199104 | CRANKCASE VENTILATION DEVICE FOR A MOTOR VEHICLE - A crankcase ventilation device is provided for an internal combustion engine. The crankcase ventilation device includes, but is not limited to an intake air inlet configured to have intake air flowing therethrough, and a crankcase gas inlet configured to have crankcase gas flowing therethrough, and a charge air outlet configured to have charge air flowing therethrough. The crankcase ventilation device is configured to mix inlet crankcase gas with inlet intake air and let it out as charge air, where the intake air inlet, the crankcase gas inlet, and the charge air outlet open into a widening. The crankcase gas inlet opens into the widening at a crankcase gas inlet opening. The distance of the crankcase gas inlet opening from a flow central axis flowing at least through the intake air inlet in one plane is greater than the distance of the intake manifold wall from the flow central axis. | 08-09-2012 |
| 20120279481 | INTERNAL COMBUSTION ENGINE - The present invention has an object to provide an internal combustion engine in which abnormal combustion accompanying inflow of oil hardly occurs. For this purpose, in one mode of the present invention, the internal combustion engine includes a plurality of cylinders disposed along a flow of cooling water, and a surge tank having a plurality of air outlet ports connecting to the respective cylinders, wherein the surge tank is formed so that relatively much oil accumulates in a vicinity of an air outlet port connecting to a cylinder which is located at an upstream side of the flow of the cooling water, and accumulation of the oil is relatively small in a vicinity of an air outlet port connecting to a cylinder which is located at a downstream side of the flow of the cooling water. | 11-08-2012 |
| 20120298080 | METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE, CONTROL ELEMENT, INTERNAL COMBUSTION ENGINE - A method for operating an internal combustion engine having at least one venting duct running from a crank chamber of a crankcase to an intake manifold, includes the steps of measuring a fresh air mass flow supplied to the internal combustion engine with an air mass sensor, determining a cylinder charge of at least one cylinder of the internal combustion engine depending on the measured fresh air mass flow, determining during operation a pressure of the crank chamber, and correcting the determined cylinder charge depending on a measured change of the pressure in the crank chamber. A control element for a controller of an internal combustion engine, in particular an automobile, carrying out the method, and an internal combustion engine, in particular in an automobile, with such control element are also described. | 11-29-2012 |
| 20130008419 | AUTOMOTIVE FUEL SYSTEM - A PCV circuit for an internal combustion engine is modified to deliver the PCV fluid to an atomization chamber which also receives fuel from an electronic fuel injector tapped into the main vehicle fuel supply. The fuel from the injector is thoroughly vaporized in and/or immediately downstream of the chamber and conveyed to the vehicle intake manifold. A switch cuts off operation of the fuel injector at high load/high throttle setting conditions. The injector operates at a constant frequency with a selected ON time. | 01-10-2013 |
| 20130061832 | INTERNAL COMBUSTION ENGINE - A combustion engine, in particular that of a motor vehicle, includes a ventilation device for feeding gases of a crankcase of the combustion engine enclosing at least one crankshaft to an air feed of the combustion engine, wherein the air feed feeds an airflow rate to the combustion engine. An adapter device may fluidically connect a full load path of the ventilation device to a full load line of the ventilation device and a part load path of the ventilation device to a part load line of the ventilation device. | 03-14-2013 |
| 20130118459 | Plate Assembly for Positive Crankcase Ventilation System - A positive crankcase ventilation (PCV) plate system is disclosed that provides for expanded operation on a vehicle engine. The PCV system, in an embodiment, comprises a PCV plate, link plate, adapter plug, and one or more link plate plugs. The PCV plate may have three orifices that may align with and securely mount over ports on an engine valve cover. One orifice on the PCV plate may be fitted with the adapter plug to allow attachment of a block breather hose or other hose, while two other orifices may allow attachment of the link plate plugs or catch cans. The link plate may be installed over two orifices on the PCV plate and link plate plugs may extend therethrough and at least partially into the two orifices, and a link plate gasket may be provided therebetween providing a gas-tight seal. | 05-16-2013 |
| 20130146039 | SYSTEM AND METHOD FOR REDUCING VACUUM DEGRADATION IN A VEHICLE - An engine including a lubricated vacuum source is disclosed. In one example, engine oil entrained in gases lubricates a vacuum pump. The approach may provide for improved efficiency when generating vacuum. | 06-13-2013 |
| 20130160751 | METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE - An internal combustion engine has a cylinder in which a combustion chamber, bounded on one side by a reciprocating piston, is formed. The piston drives a crankshaft rotatably mounted in a crank casing. The internal combustion engine has an inlet opening for combustion air into the crank casing, and an outlet opening out of the combustion chamber. The internal combustion engine has at least one overflow duct which connects the crank casing interior to the combustion chamber. The internal combustion engine has a crank casing pressure sensor for measuring the crank casing pressure, a device for determining the rotational position of the crankshaft, and an evaluation device which evaluates the measurements of the crank casing pressure sensor. A method for operating the internal combustion engine is provided where the ambient pressure is determined using the crank casing pressure measured by the crank casing pressure sensor. | 06-27-2013 |
| 20130199506 | DUAL FUNCTION BREATHER BYPASS SYSTEM - A breather system functions, under high load conditions, as an open breather system, and functions as a closed breather system under low load conditions. The breather system includes a first flow path between the engine crankcase and an air intake for the engine, and a three-way valve mechanism located within the flow path and responsive to air intake depression pressure to close the pathway leading to the air intake and allow for a second flow path between the engine chamber and atmosphere to function as an open breather system. When the air intake depression pressure in the air intake is such that the valve leading to the air intake is open, the system operates as a closed breather system. | 08-08-2013 |
| 20130199507 | Method for Producing a Ventilation Bore in a Thrust Bearing of a Crankcase of a Reciprocating Internal Combustion Engine - A method is provided for producing a ventilation bore in a thrust bearing of a crankcase of a reciprocating internal combustion engine by milling. The milling cutter is an angled-head milling cutter, which is introduced into the crankcase in the direction of a cylinder longitudinal axis and is moved in the direction of a crankcase longitudinal axis until the thrust bearing is perforated. Subsequently, the angled-head milling cutter is moved back in the direction of the crankcase longitudinal axis and removed from the crankcase by moving the angled-head milling cutter in the direction of the cylinder longitudinal axis. Internal stresses in the crankcase are avoided by the production of the ventilation bore, as a result of which the strength of the crankcase is increased. | 08-08-2013 |
| 20130233290 | DEVICE AND METHOD FOR CLEANING CRANKCASE GAS - A device for cleaning of crankcase gas including a centrifugal separator having a housing and a separation chamber in which a rotor is arranged. The separator is connected to a gas inlet for conducting crankcase gas from the crankcase to the centrifugal separator and a gas outlet for conducting the cleaned gas from the separator. A motor is arranged to rotate the centrifugal rotor. A sensor is provided for detection of a parameter and is arranged to communicate with the control equipment. The control equipment is operatively connected to a valve for adjusting the flow of gas through the centrifugal separator. The control equipment is arranged to change the position of the valve in response to a detected change of the parameter such that the gas pressure in the crankcase is maintained at a predetermined value. | 09-12-2013 |
| 20130239932 | Crankcase Ventilation Device - A crankcase ventilation device features a closing valve with a valve body. The valve body executes a positioning movement between a closed and an opened position. A sensor device for detecting the positioning movement of the valve body is disposed in the housing. | 09-19-2013 |
| 20130306043 | POSITIVE CRANKCASE VENTILATION SYSTEM - An engine assembly includes an engine defining a combustion chamber and a crankcase volume, together with an intake assembly. The intake assembly includes an air cleaner assembly, a throttle, and an intake manifold in a series arrangement and fluidly coupled with the combustion chamber. An air-oil separator is fluidly coupled between the crankcase volume and the intake manifold and defines a separator volume configured to extract oil from air flowing through the volume. The air-oil separator includes a first inlet port configured to direct a first air flow into the separator volume substantially along a first direction, and a second inlet port configured to direct a second air flow into the volume substantially along a second direction that generally opposes the first direction. | 11-21-2013 |
| 20130340732 | CRANKCASE VENTILATION AND VACUUM GENERATION - Methods and systems are provided for generating vacuum from crankcase ventilation flow. During both directions of gas flow between an engine intake manifold and a crankcase, gases are directed through one or more aspirators to produce vacuum. The drawn vacuum may then be used to operate various engine vacuum actuators. | 12-26-2013 |
| 20140034030 | ASSEMBLY FOR USE IN A CRANKCASE VENTILATION SYSTEM, A CRANKCASE VENTILATION SYSTEM COMPRISING SUCH AN ASSEMBLY, AND A METHOD FOR INSTALLING SUCH AN ASSEMBLY - An assembly for use in a crankcase ventilation system of an internal combustion engine includes a shutter arrangement that is constructed and arranged for preventing that residual gases and/or vapors out of a crankcase flow into an air intake system during a period of time that starts at shut down of the engine and ends after it has been re-started. The assembly also includes an outlet that is constructed and arranged for removing at least a substantial part of the residual gases and/or vapors from the engine as long as it is shut down. | 02-06-2014 |
| 20140048052 | Systems and Methods for Closed Crankcase Ventilation and Air Filtration - A system for providing air to an internal combustion engine comprises a crankcase ventilation unit that receives unrefined blowby gas from a crankcase, separates oil from the unrefined blowby gas, and discharges refined blowby gas. A conduit delivers the refined blowby gas to an air cleaner housing. The air cleaner housing comprises a first chamber that receives intake air through a first port, a second chamber that receives intake air from the first chamber and refined blowby gas from the conduit through a second port, and a third chamber that receives a mixture of intake air and refined blowby gas from the second chamber and discharges the mixture through a third port. A primary filter element filters the intake air as it passes from the first chamber to the second chamber. A secondary filter element filters the mixture as it passes from the second chamber to the third chamber. | 02-20-2014 |
| 20140048053 | SYSTEM FOR IMPROVING ENGINE CRANKCASE VENTILATION VIA A CONDUIT - A system for improving PCV flow of an engine is presented. The system can reduce engine oil consumption when an engine is exposed to lateral or centripetal force. In one example, the system includes a mechanically operated valve that acts to limit PCV flow in a conduit external to an engine. | 02-20-2014 |
| 20140053818 | SYSTEM AND METHOD FOR MONITORING BLOW-BY IN A COMBUSTION ENGINE - A combustion engine comprises a suction valve system for discharging blow-by gas from the crankcase into an air inlet channel for the cylinders. The suction valve system is driven by an electromotor which is connected to a power source. The system comprises a rev counter which measures the rpm of the suction valve system, as well as a control unit which is connected to the power source, the rev counter and the engine management system. The control unit can set predefined engine conditions as well as the power flowing to the suction valve system to have this system rotate at a predefined speed. The value of the set power is a measurement for the blow-by. | 02-27-2014 |
| 20140069398 | CENTRIFUGAL PRECIPITATOR FOR PRECIPITATING OIL MIST FROM THE CRANKCASE VENTILATION GAS FROM AN INTERNAL COMBUSTION ENGINE - A centrifugal precipitator having a housing and a rotatable driven rotor for precipitating oil mist from crankcase ventilation gas of an internal combustion engine. The housing has an inlet for gas to be deoiled, a deoiled gas outlet and an oil outlet. The housing includes a metallic main element surrounding the rotor and carrying the rotor bearing. A housing bottom is built onto the main element from below. The housing attaches with a flange to a counterflange or module of the engine. The housing flange is formed on the main element and the housing. The oil outlet runs through a first flange part of the housing bottom and this flange part has a circumferential rim. A second flange part of the main element has a collar engaging over part of its periphery behind the rim and can be clamped with the rim in between against the counterflange. | 03-13-2014 |
| 20140076294 | CRANKCASE VENTILATION VIA CRANKCASE PULSATION - Systems and methods for ventilating crankcase gases in a crankcase ventilation system via crankcase pressure pulsations are disclosed. In one example approach, a method comprises driving flow of crankcase ventilation gases through a crankcase of the engine from a fresh air inlet of the crankcase to an outlet of the crankcase via crankcase pressure pulsations while restricting backflow of crankcase ventilation gases from the outlet to the inlet, where the inlet and outlet are coupled upstream of an intake throttle of the engine. | 03-20-2014 |
| 20140109885 | ENGINE CRANKCASE VENTILATION FILTER ASSEMBLY; COMPONENTS; FEATURE; AND METHODS - Crankcase ventilation filter systems are described, along with components and selected features thereof. Example features include preferred use of a backpressure limiting valve regulation (regulator) arrangement; and, a vacuum limiting valve regulation (regulator) arrangement. An example embodiment is provided which use two filter cartridges and two drain arrangements. Another example is provided which uses a single cartridge. Example filter cartridges are depicted and described. | 04-24-2014 |
| 20140158101 | BLOW-BY GAS PROCESSING CIRCUIT FOR INTERNAL COMBUSTION ENGINE - A blow-by gas processing circuit for an internal combustion engine includes a blow-by gas lead-out pipe uprising from the engine and extending along one side surface of an air cleaner, an upper pipe bending laterally from an upper end of the lead-out pipe and extending along the one side surface, a descending pipe bending downward from an extremity portion of the upper pipe and extending along the one side surface to reach a purification completion chamber of the cleaner, a branch pipe branching downward from an intermediate portion of the upper pipe and connected to a blow-by gas outlet port opened to an intake passage penetrating an insulator member, and a control valve placed in an upper portion of the branch pipe and opening responding to a rise in boost negative pressure of the engine. | 06-12-2014 |
| 20140182568 | OIL FILTER SYSTEM FOR VEHICLE - An oil filter system for a vehicle may provided at a cylinder block of an engine for collecting engine oil from a blow-by gas generated in a crank case. The oil filter system may include a blow-by path to recirculate the blow-by gas so that the blow-by gas generated in the crank case is combusted together with a fuel-air mixture, a filter case that is a space formed between the crank case and the blow-by path, a filter partition disposed to divide the filter case into two spaces, and configured to collect the engine oil contained in the blow-by gas, and an oil pan mounted in the cylinder block for collecting the engine oil that have been collected by the filter partition. The filter partition may collect the engine oil in a forward direction flow and a reverse direction flow of the blow-by gas. | 07-03-2014 |
| 20140182569 | OIL FILTER SYSTEM FOR VEHICLE - An oil filter system for a vehicle is provided at a cylinder block of an engine and collects engine oil from blow-by gas generated in a crank case. The oil filter system may include a blow-by path configured to recirculate the blow-by gas so that the blow-by gas generated in the crank case is combusted together with a fuel-air mixture, a filter case formed between the crank case and the blow-by path, filters disposed in the filter case to collect the engine oil contained in the blow-by gas, and an oil pan mounted in the cylinder block to collect the engine oil collected at the filters, wherein the filters collect the engine oil in a forward direction flow and a reverse direction flow of the blow-by gas. | 07-03-2014 |
| 20140202438 | ENGINE VENTILATION APPARATUS - A ventilation apparatus for an engine is provided with a recirculation passage for causing blow-by gas in a crank case to flow back into an intake passage of an engine. The ventilation apparatus is also provided with an oil return passage for returning oil to an oil pan. In the oil return passage, a common portion is formed, which is an internal space shared with the recirculation passage and into which oil falls under its own weight. Specifically, the portion of the oil return passage including the common portion extends in the vertical direction. | 07-24-2014 |
| 20140209074 | CRANKCASE VENTILATION FOR AN INTERNAL COMBUSTION ENGINE, TANK VENTILATION CONDUIT AND CONNECTION SYSTEM THEREFOR - A crankcase ventilation for an internal combustion engine with a ventilation conduit which connects the crankcase of the internal combustion engine to an intake duct of the internal combustion engine, as well as a tank ventilation conduit and a connection system for a fluid conduit. The ventilation conduit comprises: a first pipe connector ( | 07-31-2014 |
| 20140246002 | POSITIVE CRANKCASE VENTILATION SYSTEM - A positive crankcase ventilation system for an internal combustion engine (ICE) includes an engine crankcase, an intake manifold disposed in downstream gas flow communication with the engine crankcase, an air induction system disposed in upstream gas flow communication with the engine crankcase, and a vacuum pump disposed in gas flow communication between the air induction system and the engine crankcase. Operation of the vacuum pump facilitates air flow from the air induction system to the engine crankcase, and from the engine crankcase to the intake manifold. | 09-04-2014 |
| 20140311468 | BLOW-BY GAS REFLUXING DEVICE - A blow-by gas refluxing device is provided for an engine system including an engine and an intake air passage communicating with the engine for supplying intake air into the engine. The blow-by gas refluxing device includes a plurality of blow-by gas refluxing passages each having an inlet communicating with the engine and an outlet communicating with the intake air passage. The outlets of the blow-by gas passages communicate with the intake air passage at different positions along the length of the intake air passage and each of the blow-by gas passages has a backflow preventing device disposed therein, so that blow-by gas produced in the engine can flow into the intake air passage via at least one of the blow-by gas refluxing passages throughout the entire operational range of the engine. | 10-23-2014 |
| 20140345580 | OIL DRAIN STRUCTURE FOR OIL MIST SEPARATOR - An oil drain structure for an oil mist separator including a drain pipe extending from the oil mist separator into the internal combustion engine, the drain pipe having an oil discharge hole extending through a lower end portion of the drain pipe along an axial direction of the drain pipe, and a check valve including a valve body disposed below the lower end portion of the drain pipe, the valve body acting to open and close the oil discharge hole from a side of a lower surface of the lower end portion of the drain pipe, a valve head portion fitted into the drain pipe with a fine clearance as an orifice and being moveable in the axial direction of the drain pipe, and a stem portion extending through the oil discharge hole to connect the valve body and the valve head portion with each other. | 11-27-2014 |
| 20140352673 | BLOW-BY GAS RECIRCULATION DEVICE FOR INTERNAL COMBUSTION ENGINE - If the pressure of the section of the air intake path downstream of a compressor wheel becomes higher than the pressure of the section on the upstream side, a flow of air is produced in a bypass pipe and an ejector draws in blow-by gas from within a first gas pipe. The blow-by gas sucked into the ejector from the first gas pipe flows into the section of the air intake path upstream of the compressor wheel by way of the bypass pipe. The blow-by gas recirculation device has a structure in which the section of at least the bypass pipe or the first gas pipe that connects to the other components separates at the same time the other piping located in the vicinity of the internal combustion engine separates. The other piping is piping that will affect a monitorable engine operation state when separated. | 12-04-2014 |
| 20140366855 | ENGINE APPARATUS - An engine apparatus that utilizes a gas pressure regulation valve not only for pressure adjustment but also for removal of lubricant. An engine apparatus includes a blow-by gas returning device to return a leakage of blow-by gas from a combustion chamber to an intake system. The engine apparatus includes an expansion chamber, into which the blow-by gas is introduced from the gas pressure regulation valve. In the expansion chamber, lubricant contained in the blow-by gas is isolated. The blow-by gas is returned to an intake side of an engine from the expansion chamber. | 12-18-2014 |
| 20140373821 | ENGINE DEVICE - In detection of a temperature of fresh air which is supplied to an intake manifold of an engine, by a fresh air temperature sensor, the invention aims at preventing precision of an engine control from dropping due to difference in an attached position of the fresh air temperature sensor. The engine device has an intake pipe for supplying fresh air to the intake manifold, a breather chamber for separating lubricating oil, the breather chamber being arranged within a head cover covering an upper surface side of a cylinder head, and a blow-by gas return pipe. The intake pipe and the breather chamber are connected via the blow-by gas return pipe. The fresh air temperature sensor detecting a temperature of the fresh air introduced into the intake pipe is attached to the intake pipe. | 12-25-2014 |
| 20150020784 | DUAL FLOW CHECK VALVE FOR POSITIVE CRANKCASE VENTILATION SYSTEM - A dual flow check valve includes a valve body having an inner valve cavity, a first valve opening, and a second valve opening. The dual flow check valve further includes a seal disposed within the valve body. The seal is operatively coupled within the valve body such that the seal is configured to move relative to the valve body between an open position, in which the seal allows the gas to flow between the first and second valve openings through the inner valve cavity, and a closed position, in which the seal inhibits the gas and the liquid from flowing through the inner valve cavity from the first valve opening to the second valve opening. | 01-22-2015 |
| 20150020785 | CRANKCASE VENTILATION DEVICE - A vehicle may include an internal combustion engine having a crankcase and a crankcase ventilation device. The crankcase ventilation device may have at least one oil separating device and an oil return that feeds separated oil back to the crankcase. The vehicle may include a conveying device for driving a fluid other than blow-by gas. The conveying device may also drive the blow-by gas in the crankcase ventilation device. | 01-22-2015 |
| 20150034057 | INTERNAL COMBUSTION ENGINE - An engine includes: a first part that is provided in a first passage that interconnects an inside of a crankcase and a part of an intake passage at a downstream side of an adjustment part adjusting an intake air amount and changes gas flow in the first passage; and a second part that is provided in a second passage that interconnects the inside of the crankcase and a part of the intake passage located at an upstream side of the adjustment part and changes gas flow in the second passage. If an engine temperature is higher than a given value, and the degree of fuel decreasing correction exceeds a given value, the first part decreases the gas flow rate through the first passage and the second part restricts a flow direction in the second passage to a direction in which gas flows to the crankcase from the intake passage. | 02-05-2015 |
| 20150040877 | ENGINE SYSTEM HAVING A CONDENSATE BYPASS DUCT - An engine system is provided. The engine system includes an intake conduit positioned upstream of an engine cylinder and also includes a PCV outlet opening into the intake conduit. The engine system further includes a condensate bypass duct in parallel fluidic communication with and vertically below the intake conduit, the condensate bypass duct including a duct inlet opening into the intake conduit and a duct outlet opening into the intake conduit. | 02-12-2015 |
| 20150053187 | Crankshaft structure for model engine - A crankshaft structure for a model engine contains a body and at least one fin member. The body is formed in an elongated shaft shape and includes a cam disc disposed on a distal end thereof and a connecting shaft extending outwardly from an end surface of the cam disc, a window defined on a middle section thereof, and a channel formed therein and passing through the end surface of the cam disc so as to inhale and exhaust mixed oil gas. The at least one fin member is mounted at a position of the channel where corresponds to the window. | 02-26-2015 |
| 20150059718 | Engine Crankcase Breathing Passage With Flow Diode - An internal combustion engine is disclosed which includes an improved crankcase drain back system. A set of drain flow diodes are disposed in each of the drain lines to direct fluid flow in a direction from the head portion to the crankcase. Likewise, a set of breather flow diodes are disposed in the breather lines to direct fluid flow in a second direction from the cylinder portion to the head portion. The flow diodes include a series of stacked flow diode elements which allow flow in one direction, while resisting flow in the opposite direction. | 03-05-2015 |
| 20150128918 | BLOW-BY FILTER FOR INTERNAL COMBUSTION ENGINES - An open-ended canister includes a blow-by intake port for receiving contaminated blow-by gases and a fuel vapor exhaust port for venting purified blow-by gases. The open end of the canister is fitted with a removable cover that can be clamped in place. The removable cover includes an oil drainage port for draining cleansed engine oil back to the crankcase of the engine. The canister contains a filtering assembly made of multiple layers of metal mesh of differing gauges. The metal mesh may include one type of metal or several types of metal. | 05-14-2015 |
| 20150345350 | PISTON ENGINE AIRCRAFT EXHAUST SYSTEM - An exhaust system for an aircraft piston engine having a crankcase, the system comprising an efficient exhaust pipe stack in fluid communication with a venturi which provides a vacuum to an air oil separator and to the engine crankcase. | 12-03-2015 |
| 20160084126 | Device and Method for Reducing Fuel Dilution of Diesel Engine - A device for reducing fuel dilution of a diesel engine may include an engine oil level sensor mounted to an oil pan for storing engine oil, to sense a level of the engine oil, a heater switch switched on by a signal of a controller, when the level of the engine oil in the oil pan is increased to a reference level or more by fuel diluted in the engine oil, and a heater connected to the heater switch in the oil pan, to evaporate the fuel diluted in the engine oil while being operated by an on state of the heater switch. | 03-24-2016 |
| 20160090880 | BREATHER CHAMBER OF INTERNAL COMBUSTION ENGINE - A breather chamber for an internal combustion engine wherein the breather chamber has a large size that is formed while an increase in the size of the internal combustion engine is suppressed. The breather chamber of an internal combustion engine includes looped cam chains for transmitting the power of a horizontally disposed crankshaft to camshafts provided in cylinder heads and includes cam chain chambers disposed alongside portions of cylinder block portions which intersect the direction of the crankshaft. The breather chamber is located on a side of a plane formed by a rotation locus of the cam chain in the direction of the crankshaft in the cam chain chamber. | 03-31-2016 |
| 20160090883 | BREATHER APPARATUS - A breather apparatus is provided in a cylinder head having an intake camshaft and an exhaust camshaft that drive an intake valve and an exhaust valve, respectively. The breather apparatus includes, spaces separated from each other by partition walls and in communication with each other through an opening formed in the partition walls, the spaces having a blow-by gas flowing from a crankcase side passing sequentially therethrough. The spaces include a first space and a second space. The first space is formed in a region between the intake valve and the exhaust valve in the cylinder head. The second space is provided across the first space from a crankcase side, separated from the first space by a partition wall disposed substantially along a plane including shaft centers of the intake camshaft and the exhaust camshaft, and receives the blow-by gas flowing from the first space. | 03-31-2016 |
| 20160097354 | INTERNAL COMBUSTION ENGINE HAVING A CRANKCASE VENTILATION DEVICE, AND METHOD FOR MONITORING A CRANKCASE VENTILATION DEVICE - An internal combustion engine having an intake air duct with a compressor, a throttle valve, and a crankcase ventilation device with a ventilation duct connected to a crankcase with a crankcase pressure regulating valve, the ventilation duct divided into a first ventilation duct branch connected to the intake air duct upstream from the compressor, and a second ventilation duct branch connected to the intake air duct downstream from the throttle valve. A pressure difference between the pressure in the crankcase or in the ventilation duct upstream from the crankcase pressure regulating valve on the one hand and the pressure in the ventilation duct downstream from the crankcase pressure regulating valve on the other hand is measured by, for example, a sensor, and an evaluation unit evaluates for a correct or incorrect functioning of the crankcase ventilation device and a corresponding item of information can be outputted. | 04-07-2016 |
| 20160123283 | ENGINE INTAKE MANIFOLD HAVING A CONDENSATE-CONTAINMENT TRAY - An engine intake manifold is provided. The engine intake manifold includes a manifold chamber configured to receive positive crankcase ventilation (PCV) gas from a PCV conduit outlet, the manifold chamber including a condensate-containment tray with a plurality of baffles to form a plurality of separate cavities below the PCV conduit outlet. | 05-05-2016 |
| 20160160802 | BLOW-BY GAS TREATMENT DEVICE FOR INTERNAL COMBUSTION ENGINE - A resonator ( | 06-09-2016 |
