Entries |
Document | Title | Date |
20080236541 | THROTTLE DEVICES FOR INTERNAL COMBUSTION ENGINES - A throttle device for an internal combustion engine includes a throttle body, a transmission mechanism and an opener. A relief spring is interleaved between the throttle body and the opener. A back spring is interleaved between a final stage gear of the transmission mechanism and the opener. Each of the relief spring and the back spring is formed of a torsion coil spring. One or each of the terminal ends of the relief spring or the back spring is bent in a radial direction with respect to an axis of a coil portion. The opener or the final stage gear has at least one spring support portion with an engaging recess. The engaging recess is configured to permit insertion of the radially bent terminal end and to permit movement of the radially bent terminal end relative to the engaging recess in a circumferential direction with respect to an axis of the coil portion. The engaging recess is engageable with the radially bent terminal end as the radially bent terminal end moves in the circumferential direction relative to the engaging recess. | 10-02-2008 |
20080236542 | Electronic throttle device and method of manufacturing the same - An electronic throttle device includes a throttle body, a bulge, and a ring. The throttle body includes a bore part having an approximately cylindrical shape. The bore part is connected to an upstream air hose such that the upstream air hose is located on an outside of the bore part and is fastened with a fastening member from an outside of the upstream air hose. The bulge is discontinuously located along an outer circumference of the bore part and has a groove along an outer circumference of the bulge. The ring has a cross-sectional dimension larger than a depth of the groove in a radial direction of the bore part, and is located into the groove to configurate a protruding part that protrudes radially outwardly and extends entirely on the outer circumference of the bore part. | 10-02-2008 |
20080295800 | Composite body bore band - A composite throttle body includes a composite body bore band manufactured out of a durable high-performance composite material that is overmolded with a lower cost commercial grade nylon to form the outer shell of the throttle body. By manufacturing the bore band from a high-performance polyimide-based polymer composite material, such as Vespel™ manufactured by DuPont, a better dimensional stability for improved minimum airflow control is achieved. Furthermore, the high-performance composite material provides the bearing surface for the throttle shaft and, therefore, eliminates the need for separate bearings. By using commercial grade nylon for the majority of the throttle body the manufacturing costs are lowered and weight savings are attained. | 12-04-2008 |
20090013963 | Carburetor - A carburetor having a carburetor body in which an intake channel portion is formed. At least one fuel opening opens out into the intake channel portion. Pivotably mounted in the intake channel portion is a butterfly valve that in a completely opened position divides the intake channel, in the region of the butterfly valve, into a mixture channel and a feed channel, so that in the completely opened position of the butterfly valve, flowing into the feed channel is combustion air having a fuel content that is less than the fuel content in the mixture channel. Provided in the intake channel portion is at least one partition section that extends between the feed channel and the mixture channel. The partition section is formed on the carburetor body. | 01-15-2009 |
20090020099 | BUTTERFLY VALVE TYPE THROTTLE VALVE OF INTERNAL COMBUSTION ENGINE - Provided is a butterfly valve-type throttle valve of an internal combustion engine capable of absorbing a dispersion in valve opening degree at closed positions to reduce a leakage of air by solving problems, for example, with a multi-arrayed variable intake valve device in which a plurality of throttle valves mounted on a single turning shaft are opened and closed, a dispersion in valve opening degree is liable to occur at the closed positions due to the mounting errors of the throttle valves on the turning shaft and, accordingly, it is difficult to reduce the leakage of air. A clearance closing member ( | 01-22-2009 |
20090050106 | BUTTERFLY-TYPE THROTTLE VALVE - Providing a butterfly valve-type throttle valve that can improve the reliability in fixing a valve body to a valve shaft. | 02-26-2009 |
20090056671 | THROTTLE VALVE DEVICE FOR AN INTERNAL COMBUSTION ENGINE - Provided is a throttle valve device for an internal combustion engine which is favorably protected from icing, and enables a favorable control of the intake flow rate by avoiding an abrupt increase in the flow rate particularly in a small opening angle range. An upstream recess ( | 03-05-2009 |
20090084350 | Fuel-supplying structure for a V-type multi-cylinder engine, and engine incorporating same - In a V-type multi-cylinder engine, a first fuel supply conduit is connected to fuel-injection valves in a first throttle body group corresponding to the first bank, and a second fuel supply conduit is connected to fuel injection valves in a second throttle body group corresponding to the second bank. A pair of first and second side plates connect adjacent ends of the first and second throttle body groups together. A distance between respective throttle bodies located in two ends of the first throttle body group is set shorter than a comparable distance between the throttle bodies located in two ends of the second throttle body group. A joint part for connectively receiving the fuel hose is provided at an end of the first fuel supply conduit in a way that the joint part is arranged between the two side plates. | 04-02-2009 |
20090095253 | DEVICE FOR GENERATING A VACUUM IN A MOTOR VEHICLE - A device is provided for producing and/or augmenting a partial vacuum in a motor vehicle, in particular for operating a partial vacuum brake servo-unit. The device includes, but is not limited to a throttle unit, which has at least one throttle valve housing and a throttle valve which is arranged so as to be rotatable in an angle range in a throttle channel in the throttle valve housing for controlling a fluid flow in the throttle channel. The device also includes, but is not limited to means for producing and/or augmenting partial vacuum, the means being configured as partial vacuum augmentation means integrated into the throttle valve housing, which partial vacuum augmentation means act according to Bernoulli's principle in the manner of a sucking jet pump to produce an augmented partial vacuum for at least one brake servo-unit. The means are configured as at least one control bore extending through the throttle valve housing, wherein the control bore opens in the throttle channel in an opening to produce a partial vacuum in the control bore and the control bore is set in the drag direction at a setting angle α>0° measured with respect to the cross-sectional plane of the throttle channel. | 04-16-2009 |
20090095254 | Engine Unit and Vehicle Including The Same - An engine unit includes a V-type engine and a throttle body assembly. The throttle body assembly has front and rear throttle bodies, an actuator and a second rotational shaft. The front throttle bodies include front throttle valves that open and close front cylinders. The rear throttle bodies include rear throttle valves that open and close rear cylinders. The actuator is disposed, in a longitudinal direction, between center axes of the front cylinders and center axes of the rear cylinders. A shaft center of the second rotational shaft is located to the front of or to the rear of a shaft center of a first rotational shaft. | 04-16-2009 |
20090101104 | AIR VALVE AND METHOD OF USE - An air valve and its method of use including an air valve housing; a throttle plate disposed on a throttle shaft; a driven gear attached on the throttle shaft; a brushless direct current motor assembly in connection via a pinion with the driven gear; an integrated electronic valve controller including digital signal processing on a circuit board; and a throttle position sensor on the circuit board, wherein the throttle position sensor includes at least one non-contact type sensor. In a preferred embodiment, the air valve includes an inlet port and an outlet port connected to an engine via an air intake manifold, such that re-circulated exhaust gas is introduced into the air intake manifold. | 04-23-2009 |
20090133669 | Airflow control apparatus and manufacturing method thereof - An airflow control apparatus includes a housing for being provided at an air intake passage of an engine and having a passage for allowing an intake air to flow therethrough, a shaft rotatably provided at the housing to extend across the air intake passage, and a valve body provided in the housing to rotate together with the shaft, wherein an opposing surface is provided at the passage to face a circumferential end portion of the valve body when the valve body is in a closing state, and a first inclined surface formed at a portion of the opposing surface extending in an inner circumferential direction of the passage. | 05-28-2009 |
20090159043 | Throttle body and method of manufacturing the same - A throttle body includes a resin body ( | 06-25-2009 |
20090205610 | Throttle Valve Control Device and Throttle Valve Control Method - A throttle valve control device for controlling an intake flow to an engine making it hard for a driver to hear return spring check sound and capable of detecting the failure of a return spring earlier by checking the return spring while the engine is operating and a throttle valve control method. To reduce the wear of the gears of the throttle valve control device, when a target throttle opening is controllably fully opened while the engine is operating, the control of a throttle valve is stopped. After the control of the throttle valve is stopped, it is checked whether or not a throttle sensor output value is equal to a throttle sensor output value at a throttle machine full open position. | 08-20-2009 |
20090266334 | General purpose internal combustion engine - In a general-purpose internal combustion engine having a throttle valve and a choke valve each installed in an air intake passage connected to a combustion chamber, air sucked in flowing through the air intake passage and mixing with fuel supplied by a carburetor to generate an air-fuel mixture that enters the combustion chamber of a cylinder and is ignited to drive a piston to rotate a crankshaft to be connected to a load such as a generator, there are provided an electric motor (actuator), a throttle valve opening/closing mechanism connected to the motor to open/close the throttle valve and a choke valve opening/closing mechanism connected to the throttle valve opening/closing mechanism to open/close the choke valve in response to operation of the throttle valve opening/closing mechanism, thereby enabling to move a choke valve without need to install an additional actuator. | 10-29-2009 |
20090283069 | Apparatus for detecting the angle of rotation for a throttle valve operated by means of an electric motor - A device for detecting the angle of rotation of a throttle valve operated by an electric motor is disclosed. The valve is rotatably supported on a throttle valve shaft in an intake system of a throttle valve housing, wherein an actuator motor coupled to the throttle valve shaft predefines the throttle valve angular position in a manner controlled by a control unit, and wherein a predetermined value of the throttle valve angular position is predetermined by a manually operated predetermined-value input apparatus and is fed to the control unit. The predetermined-value input apparatus is coupled to a predetermined value sensor shaft, wherein the angular position of the predetermined value sensor shaft corresponds to the manually predefined predetermined value of the throttle valve angular position. | 11-19-2009 |
20090308349 | Throttle body with throttle valve - A throttle valve device includes at least one throttle body ( | 12-17-2009 |
20100018498 | MARINE VESSEL PROPULSION DEVICE - A marine vessel propulsion device includes an engine, an intake pathway which has a gas flow hole in the inner surface thereof and is arranged to supply air to the engine, and an air restrictor disposed on the upstream side with respect to the gas flow hole of the intake pathway. The air restrictor has a vent hole, and is arranged to restrict the amount of air to flow into the engine via the intake pathway. The vent hole of the air restrictor is arranged at a position which is near the inner surface of the intake pathway and corresponds to the gas flow hole. | 01-28-2010 |
20100031921 | Butterfly Valve - A butterfly valve including a housing having a hollow passage defining a flow path and a shaft mounted to the housing and extending transversely across the flow path. The shaft defines an axis of rotation for a butterfly valve element carried on the shaft. The valve element can be rotated about the axis between an open position permitting flow along the flow path and a closed position restricting flow along the flow path. The butterfly valve element includes a thin, substantially disc-shaped, flow-regulating plate having front and rear faces and a flow-straightening vane extending from one of the faces transversely relative to the shaft. The vane is solid and extends substantially to the wall of the hollow passage thereby defining separate non-communicating flow channels on opposite sides thereof for reducing flow turbulence and for straightening and accelerating flow across the plate. | 02-11-2010 |
20100050984 | Throttle device - A compact throttle device with a short air intake pipe length. A throttle device includes: throttle bodies that define air intake paths; throttle valves that are disposed in the air intake paths and adjust the air flow rate in the air intake paths; a throttle shaft that rotatably supports the throttle valves; a motor that rotates the throttle shaft; and a gear that connects the throttle shaft to the motor. A pin is provided as a protrusion on the peripheral surface of the throttle shaft. The gear externally fitted and fixed to the throttle shaft has, on a fixing ring that is externally fitted to the throttle shaft, a housing groove for housing the pin, the housing groove being impelled against the pin by a spring. | 03-04-2010 |
20100116246 | THROTTLE BODY FOR INTERNAL COMBUSTION ENGINE - An throttle body for rotating a valve shaft of an air-intake throttle valve through a decelerating mechanism by a motor and change the opening area of an air-intake passage by rotating the valve shaft is equipped with a lever portion that is disposed so as to be interlocked with the decelerating mechanism and regulates the opening degree of the air-intake throttle valve under the full-open state, and an adjusting screw that is threadably inserted from the outside of the body portion and abuts against the lever portion in the body portion to change the opening degree of the air-intake throttle valve under the full-open state. | 05-13-2010 |
20100126462 | METHOD AND INJECTION MOULD FOR THE PRODUCTION OF AN INTAKE SYSTEM COMPOSED OF PLASTIC FOR INTERNAL COMBUSTION ENGINES AND INTAKE SYSTEM PRODUCED - The invention relates to a method which uses an injection mould for the production of an intake system which is composed of plastic and is intended for internal combustion engines, and which has a plurality of parallel-running intake pipes and which has, arranged in the intake pipes, throttle flaps operated by way of a shared shaft bearing against bearings located in the walls of the intake pipe. A simplified production process is obtained if two mandrels ( | 05-27-2010 |
20100132664 | FUEL SUPPLY SYSTEM FOR BOAT AND OUTBOARD MOTOR - A fuel supply system for a boat minimizes and prevents deterioration in combustion efficiency of the engine. The fuel supply system includes a throttle body that is connected to an engine and that supplies air to the engine, and an injector that injects fuel to the throttle body. The injector is configured to inject fuel to a direction opposite to an airflow direction in the throttle body. | 06-03-2010 |
20100139617 | AIR INTAKE DEVICE FOR ENGINE - An air intake device for an engine is provided that includes a throttle body ( | 06-10-2010 |
20100162993 | ENGINE CONTROL SYSTEM - In an electronic throttle control system, a target intake pipe pressure as well as a presumed value for the intake pipe pressure is calculated, so that a deviation between the target value and the presumed value for the intake pipe pressure is calculated. The deviation is compensated in an advancing side by an amount corresponding to a delay of response in the throttle control system. An intake air amount passing through a throttle valve is calculated based on the above compensated deviation and a presumed intake air amount. A target opening degree of a throttle valve is finally calculated based on the above-calculated intake air amount passing through a throttle valve. Accordingly, a response and stability of the throttle control can be improved. | 07-01-2010 |
20100162994 | VALVE DEVICE AND INTERNAL COMBUSTION ENGINE SYSTEM - The present invention relates to a valve device ( | 07-01-2010 |
20100162995 | THROTTLE VALVE BODY AND THROTTLE VALVE DEVICE HAVING THE SAME - A throttle valve body includes a main body and a main valve. The main body includes an intake passage, a bypass passage, and a mounting hole. The intake passage has an upstream portion and a downstream portion. The bypass passage has an upstream section in fluid communication with the upstream portion, a downstream section extending along a first axis, and a downstream end in fluid communication with the downstream portion of the intake passage. The mounting hole extends along a second axis intersecting the first axis. The main valve is disposed in the intake passage to divide the intake passage into the upstream portion and the downstream portion. | 07-01-2010 |
20100170473 | ELECTRONICALLY CONTROLLED THROTTLE VALVE UNIT - An electronically controlled throttle valve unit includes a valve shaft supported by a throttle body, a throttle valve provided on the valve shaft rotatably therewith, an actuator for controlling the valve shaft, and a mechanical valve opening/closing mechanism. The mechanical valve opening/closing mechanism comprises: a valve lever provided on the valve shaft rotatably therewith; a cam lever supported rotatably with respect to the valve shaft so as to be directly operated through a throttle operation; and a link lever supported rotatably by the throttle body and transmitting a rotation of the cam lever in a direction of opening the throttle valve to the valve lever so as to rotate the valve lever and the valve shaft in a throttle valve opening direction with a predetermined rotation angle characteristics. | 07-08-2010 |
20100180861 | Carburettor unit for motorized equipment - In order to provide a carburettor unit for motorized equipment, in particular hand-operated motorized equipment such as a chain saw, a trimmer, a lawn-cutting appliance, a foliage clearing appliance or suchlike, having a housing, in which a throttle valve and a choke valve are held so as to be movable respectively between a closed position and an open position, which overcomes the disadvantages of the prior art and in which an incorrect position between the throttle valve and the choke valve is avoided, it is proposed that a locking element is provided, which is adjustable through the movement of the throttle valve and cooperates with the choke valve such that a movement of the choke valve into the closed position is locked when the motorized equipment is set in operation. | 07-22-2010 |
20100206264 | THROTTLE VALVE - Throttle valves often have the problem that the throttle must be precisely positioned with and fixed to the throttle shaft. In the throttle valve ( | 08-19-2010 |
20100206265 | EXHAUST PASSAGE STRUCTURE OF MULTI-CYLINDER ENGINE - Three or more independent passages are coupled to respective cylinders which are different from each other, and a collective portion where the independent passages collect is provided. An exhaust turbocharger is arranged downstream of the collective portion. Rotary throttle valves are arranged respectively in the independent passages upstream of the collective portion. At least two of the throttle valves are supported by a common rotary axis. The independent passages with the throttle valves supported by the common rotary axis are coupled to cylinders which have exhaust strokes which are not adjacent to each other. Accordingly, the exhaust gas can be supplied to the exhaust turbocharger efficiently. | 08-19-2010 |
20100212626 | Load Adjusting Device - A load adjustment device for an actuator that determines the power of an internal combustion engine, designed as a throttle valve and is disposed on an actuator shaft in a housing, the actuator shaft being pivotally drivable about the rotary axis of the actuator shaft between a minimal load setting defined by a minimal load stop and a full load setting defined by a full load stop by means of a reversibly drivable actuating drive via an actuating part rotationally fixed to said shaft. The actuator shaft is subject to a load in the minimum load direction by a restoring spring. The actuating part can be subjected to a load by a leg of a torsion spring disposed radially outside the pivoting range of the part, the leg of the torsion spring extending into the pivoting range of the actuating part. | 08-26-2010 |
20100212627 | THROTTLE APPARATUS - A ventilation path is provided for communicating an accommodation chamber wherein a transmission mechanism for an electric motor is accommodated and an external space. A covering space is provided for covering an outer end opening of the ventilation path is opened to suppress formation of a water film at the outer end opening. A throttle apparatus includes a housing with covering walls defining covering spaces having open ports which are open to an external space. Lower end openings of ventilation paths are provided for communicating the external space and the accommodation chamber with each other are open to the covering spaces. The opening ports are set to such a size that adhering water flowing down along the lower outer face is cut into pieces between the covering walls and a housing body across the open ports. | 08-26-2010 |
20100242903 | INLET PASSAGE STRUCTURE OF V-TYPE INTERNAL COMBUSTION ENGINE - In the inlet passage structure of the V-type internal combustion engine, front and rear banks have inlet ports with a nearly identical inlet passage length, and an inlet chamber is connected to a top end openings of the inlet ports. A throttle body and the inlet chamber are offset on a side leading to a cylinder on a side away from the throttle body. The inside of the inlet chamber is formed with a nearly straight inlet passage from the throttle body to the top end opening of the inlet port leading to the cylinder bore on the side away from the throttle body, and a curved inlet passage to the top end opening of the inlet port leading to the cylinder on a close side. | 09-30-2010 |
20100242904 | Internal Combustion Engine - An internal combustion engine having an intake channel that is divided by a partition into an air duct and a mixture duct. The partition has a connecting opening that at least at full throttle of the internal combustion engine is substantially closed. A main fuel opening opens out into the mixture duct. At least one further fuel opening is provided that opens out into the mixture duct at a first distance relative to the wall of the intake channel and at a second distance relative to the partition. | 09-30-2010 |
20100263626 | Device for injecting fuel into the combustion chamber of an internal combustion engine - In a device for the injection of fuel into the combustion chamber of an internal combustion engine, including at least one high-pressure accumulator ( | 10-21-2010 |
20100313848 | THROTTLE BODY AND A METHOD TO MODIFY A THROTTLE BODY - A method and device using at least one groove created in the throttle body wall is described. It is believed that the this throttle body modification that can increase gas mileage, increase horsepower, increase torque, reduce emissions and/or reduce the carbon foot print of a machine such as an internal combustion engine. | 12-16-2010 |
20100319658 | Motor-Driven Throttle Valve Device with Inductive Throttle Sensor and Inductive Throttle Sensor for Detecting Rotation Angle of Throttle Shaft of Motor-Driven Throttle Valve Device - In a situation where a conventional inductive throttle sensor is used with a motor-driven throttle valve device to detect the rotation angle of a throttle shaft, plural sensor connection conductor sections for connecting a connector terminal to a circuit board terminal section are formed on the cover on one lateral surface side of a circuit board in the long-axis direction. This increases the dimension of the cover in the short-axis direction (the dimension in the direction of air flow in an intake path). Consequently, it is difficult to install the motor-driven throttle valve device and inductive throttle sensor in a narrow engine room. This problem is addressed by using a separate member to achieve electrical conduction between a stator circuit board and a conductor routed inside the cover installed over the stator circuit board in a concentrated manner on one side of the circuit board. The problem is also addressed by disposing plural electrical conduction spots in a decentralized manner and away from a protrusion provided to limit the amount of axial movement of a gear. | 12-23-2010 |
20110023823 | Apparatus and Method for Throttle Control of Internal Combustion Engines - A throttle control valve is provided. It includes a valve housing having an inlet end, an outlet end. A valve body located within the housing has a sealing end and a spindle. The sealing end has a teardrop shaped cross-section for cooperating with the valve housing. | 02-03-2011 |
20110056460 | RESIN GEARS AND THROTTLE DEVICES - A resin gear has a concave portion formed on a gear body at a position radially inward of a boundary region between a toothed portion and a non-toothed portion. During a molding process, a welded portion is formed at the non-toothed portion by merger of flow of the molten resin along a first path and flow of the molten resin along a second path. The first path detours the concave portion and passes through the side of the toothed portion, and the second path detours the concave portion and passes through the side of the non-toothed portion. | 03-10-2011 |
20110100325 | THREE-WAY THROTTLE VALVE - A three-way throttle valve for an air intake system of an engine comprises an elongate-shaped valve plate, a positioning shaft, and an actuator. The elongate-shaped valve plate is disposed within an intake air portion of an air intake system. The elongate-shaped valve plate has a major axis and a minor axis. The positioning shaft connects to the elongate-shaped valve plate. The positioning shaft is disposed about the minor axis of the elongate-shaped valve plate. The actuator connects to the positioning shaft. The actuator has at least a first position setting, a second position setting, and a third position setting. At least a portion of the elongate-shaped valve plate contacts a portion of the intake air portion of the air intake system when the actuator is disposed in the first position setting. | 05-05-2011 |
20110100326 | Engine Control Unit - Provided is an engine control unit which is capable of determining whether or not a sudden change in ETC characteristic has occurred, timely learning the ETC characteristic, and thus suppressing excessive racing of an engine and enhancing torque realizing accuracy thereof, at a time other than the opportunity of a regular air quantity learning in a vehicle having no idle state or a less frequent opportunity of the idle state. The engine control unit performs automatic stop control and automatic starting control of an engine and includes: a characteristic storage means which stores therein a characteristic of an air flow rate with respect to a valve opening degree of an electronic throttle control valve; a characteristic change determination means | 05-05-2011 |
20110120412 | Valve - A valve having a housing with a flow opening with a flat boundary. The flow opening is connected on one side to an elastic film element, which seals the flow opening in the flat state of the element. The valve is used as a throttle element for motor vehicles with diesel engines. | 05-26-2011 |
20110120413 | THROTTLE BODY FUEL DISTRIBUTION ASSEMBLY - A throttle body fuel distribution assembly includes a throttle body assembly having a throttle body housing and a throttle bore for inducting an airflow, a fuel injector coupled to the throttle body assembly, and a fuel dissemination device for dispersing fuel sprayed by the fuel injector into the airflow through the throttle bore. In one variation, a throttle body fuel distribution assembly includes a throttle valve assembly for controlling the airflow through the throttle bore. In some variations, the fuel spray is diverted in a direction resistive to the direction of the airflow through the throttle bore. In yet another aspect, a throttle body injection system for an internal combustion engine includes a throttle body assembly having an air conduit, an injector assembly coupled to the throttle body assembly, and a fuel deflector for deflecting fuel into the airflow. | 05-26-2011 |
20110120414 | Rotary Throttle Valve Carburetor - The invention is a rotary throttle valve carburetor that minimizes frictional drag on the airflow through the air intake passage. This is accomplished by providing bearing shafts at both ends of the rotary throttle valve body upon which are mounted ball bearings such that upon assembly of the rotary throttle valve body to the carburetor body housing, friction free rotation is established as the rotary throttle valve body is rotated by an accelerator cable from idle to full throttle position. The rotary valve carburetor also features a rotary throttle valve body assembly which by the use of end caps mounted to the rotary throttle valve body provides the ability to vary the venturi effect within the air intake passage by exchanging the rotary throttle valve body assembly and associated end caps with a different face angle so as to create a different venturi effect by the air passing through the air intake passage of the carburetor body housing. | 05-26-2011 |
20110132322 | Multi-Function Throttle Valve - An engine system comprises an air cleaner, a combustion chamber coupled to an intake port, and an intake manifold. The intake manifold is configured to receive air from the air cleaner, and, under some conditions to receive exhaust from the combustion chamber. The engine system further comprises a multifunction, barrel-type throttle valve coupled to the intake port via an outlet, the throttle valve having a first inlet coupled to the intake manifold and a second inlet coupled to the air cleaner. | 06-09-2011 |
20110203550 | SUPERCHARGER WITH CONTINUOUSLY VARIABLE DRIVE SYSTEM - An engine system includes a throttle valve configured to variably open and close to selectively restrict a volume of air flow. The engine system also includes a supercharger comprising an air inlet, an air outlet, a rotatable drive shaft and rotors associated with the drive shaft, wherein the supercharger is sized to have a flow rate that substantially prevents backwards leaking of air flow. The engine system further includes a combustion engine comprising combustion chambers and an associated rotatable crank shaft and a continuously variable transmission (CVT) configured to variably transfer rotational energy between the drive shaft and the crank shaft. | 08-25-2011 |
20110283970 | THROTTLE APPARATUS FOR INTERNAL COMBUSTION ENGINE - A full close position limiting member is adapted to be engaged with a valve gear when a valve is driven in a valve closing direction and reaches a full close position of the valve. An intermediate position limiting member is adapted to be engaged with a return spring when the valve is placed on a side of a predetermined intermediate position where a full close position of the valve is located. The intermediate position limiting member receives an intermediate reaction force from the return spring through engagement with the return spring, and the full close position limiting member receives a full close side engaging force from the valve gear. The full close side engaging force and the intermediate reaction force are generally directed in a predetermined direction. | 11-24-2011 |
20120097129 | Integrated Throttle Body for Electronic Fuel Injection System and Method of Manufacture - An integrated throttle body for an electronic fuel injection (“EFI”) system and its method of manufacture. The integrated throttle body of the invention comprises a molded throttle body housing in which the throttle valve, shaft, bore and motor housing are all molded in a single shot from a suitable thermosetting resin or thixomolded from magnesium. | 04-26-2012 |
20120222650 | THROTTLE BODY CONFIGURED TO PROVIDE TURBULENT AIR FLOW TO A COMBUSTION CHAMBER OF AN ENGINE, AND ENGINE INCLUDING SAME - A vehicular air intake is configured to produce a turbulent intake air flow in a cylinder of an engine. The air flow may be provided as a vortex. A throttle valve, for controlling an amount of intake air provided to the engine, has a pivot shaft with an axis which is offset from a center axis of an air intake passage in which the throttle valve is installed, and a throttle plate affixed to the pivot shaft. The pivot axis is offset and spaced away from the central axis of the throttle body such that a first portion of a throttle plate disposed on a first side of the pivot shaft, is larger than a second portion of the throttle plate disposed on a second side of the pivot shaft. This arrangement provides the non-uniform turbulent air flow into the engine. | 09-06-2012 |
20120247423 | AUTOMATIC CHOKE APPARATUS FOR ENGINE - There is provided an automatic choke apparatus for an engine. A bimetal that is coupled to a choke valve of an intake system is provided in the vicinity of an outer wall face of a muffler. The muffler is divided into a first expansion chamber and a second expansion chamber across a partition plate. An exhaust hole that allows the expansion chambers to be communicated with each other is formed at the lower part of the partition plate. An exhaust gas is guided from the upstream first expansion chamber toward the downstream second expansion chamber through the exhaust hole. A bypass hole is formed at an upper part of the partition plate in such a manner that that the expansion chambers are communicated with each other as bypassing the exhaust hole. The bypass hole is open to the vicinity of the outer wall face opposite to the bimetal. | 10-04-2012 |
20120291749 | Air Inlet System of Engine - An air inlet system of an engine includes a throttle, a fan frame, a fan, a valve, a motor, and a throttle sensor. The fan frame has a hole exposed toward outside of the air inlet system. The fan is connected to the throttle and mounted into the fan frame behind the hole. The valve is mounted to the hole. The motor is for driving the fan to force air into at least one intake manifold of the engine through the throttle and is for driving the valve open. The throttle sensor is for controlling the rotational speed of the fan according to the motion of a throttle pedal. | 11-22-2012 |
20120318234 | Throttle Body with Offset Axis Drum Valve - An improved throttle body includes an offset axis drum valve and shaped throat. The offset axis and shaped throat provide gradual initial opening for better throttle control and the drum valve includes a lower face matching the profile of the air path through the throttle body when rotated to a fully open throttle position, providing an optimal flow at full throttle. The offset axis drum further includes a slightly decreasing radius. As the drum opens, the surface of the drum retreats from the throttle body wall providing clearance for dusty environments and reducing tolerances for reduced manufacturing cost. A fuel injector pocket position provides a spray pattern aligned with an initial air flow as the throttle body opens providing better mixing at part throttle. The throttle body further creates a cavity under the drum in the closed position providing an increased volume in the intake tract which improves throttle response. | 12-20-2012 |
20130081594 | Throttle Body With Blade and Shaft Injection Molded Within The Body - A throttle body assembly, and method of manufacturing such, is disclosed having a unitary shaft and blade component injection molded in situ within a throttle body housing to mechanically entrap the shaft and blade component, yet still allowing for it to partially rotate, within the throttle body housing. The throttle body housing defines an interior passage, a shaft through-hole, and a shaft socket opposite the shaft through-hole, both aligned along a transverse axis to the interior passage. The shaft and blade component is a single unitary piece injection molded in situ within the throttle body housing, such that it has a blade section disposed within the interior passage, first and second shaft sections extending from the blade section opposite each other partially disposed within the shaft socket and shaft through-hole, respectively, and a pivotable axis generally coaxial with the transverse axis. | 04-04-2013 |
20130081595 | INTERNAL COMBUSTION ENGINE - An intake port is configured such that a center position of an intake upstream side opening is offset to one side in a juxtaposition direction of intake downstream side openings with respect to a center position between the intake downstream side openings in the juxtaposition direction as viewed in plan of a cylinder head. An injector is configured such that a fuel injection center axial line is inclined to the other side in the juxtaposition direction with respect to a center axial line of the intake upstream side opening as viewed in plan of the cylinder head. | 04-04-2013 |
20130087121 | ACCELERATOR DEVICE - An accelerator device capable of achieving miniaturization and easily varying torque characteristics with a simple structure. The accelerator device includes a housing, a grip-side rotary body which is rotated with accelerator operation, a friction member including a contact portion to apply resistance due to friction as being contacted to the grip-side rotary body, an urging member which is connected to the housing via the friction member and connected to the grip-side rotary body and which urges the grip-side rotary body to rotate to an initial position side, and a restriction portion which is arranged at the housing and which restricts rotation of the friction member with the urging force of the urging member as being contacted to the friction member. Here, the friction member is urged by the urging member in a direction that the contact portion is pressed to an outer circumferential face of the rotary body having the restriction portion as a fulcrum. | 04-11-2013 |
20130112168 | Motor-Driven Throttle Valve Device with Inductive Throttle Sensor and Inductive Throttle Sensor for Detecting Rotation Angle of Throttle Shaft of Motor-Driven Throttle Valve Device - In a situation where a conventional inductive throttle sensor is used with a motor-driven throttle valve device to detect the rotation angle of a throttle shaft, plural sensor connection conductor sections for connecting a connector terminal to a circuit board terminal section are formed on the cover on one lateral surface side of a circuit board in the long-axis direction. This increases the dimension of the cover in the short-axis direction (the dimension in the direction of air flow in an intake path). Consequently, it is difficult to install the motor-driven throttle valve device and inductive throttle sensor in a narrow engine room. This problem is addressed by using a separate member to achieve electrical conduction between a stator circuit board and a conductor routed inside the cover installed over the stator circuit board in a concentrated manner on one side of the circuit board. The problem is also addressed by disposing plural electrical conduction spots in a decentralized manner and away from a protrusion provided to limit the amount of axial movement of a gear. | 05-09-2013 |
20130118450 | VARIABLE INTAKE SYSTEM FOR VEHICLE - A variable intake system for a vehicle which controls air flow amount flowing into each combustion chamber according to rotation speed of an engine may include an air cleaner main body connected with a main duct and an auxiliary duct through which air flows, a valve housing which may be disposed within the air cleaner main body and communicated with the auxiliary duct, a valve assembly disposed to the valve housing and controlling an opening amount of the valve housing, an actuator mounted to the valve housing and coupled to the valve assembly to operate the valve assembly, and a controller controlling operation of the actuator, wherein the actuator may be a linear motor including a motor shaft which realizes linear motion according to supplying current to a coil of the actuator. | 05-16-2013 |
20130125860 | CONTROL STRUCTURE OF ENGINE THROTTLE VALVE - A control structure is provided for a throttle valve of engine. The throttle valve includes a throttle plate arranged inside the valve body and mounted to a control shaft having an end extending outside the valve body and received in a control seat mounted outside the valve body and having a shaft hole seat, a constraint block, a coupling hole seat, and a cable outlet section. A control assembly includes a return spring and a control rocker arm that includes a connection section forming a connection hole to be fit over the control shaft and a cable connection section, a positioning section, and a push section. The control motor is mounted to the coupling hole seat of the control seat and has a driving rod having a front tip section positioned against the push section of the control rocker arm. The control seat lid is secured to the control seat. | 05-23-2013 |
20130139787 | VARIABLE INTAKE SYSTEM FOR VEHICLE, AND APPARATUS AND METHOD FOR CONTROLLING THE SAME - An intake system mounted to a vehicle controls an opening angle of a variable flap according to an RPM of an engine, an intake pressure, and an opening angle of a variable flap to optimize performance in various operation regions by detecting engine RPM and an intake air pressure, and determining an operation region based on the RPM of the engine; applying the intake pressure to determine a target amount of air and an opening angle of a variable flap for an operation region; driving an actuator to adjust an opening angle of the variable flap to a target opening angle; and analyzing an operation position of the actuator to detect an opening angle of the variable flap, and, when the target opening angle is not followed, correcting a drive of the actuator such that an opening angle of the variable flap follows the target opening angle. | 06-06-2013 |
20130160735 | THROTTLE POSITION SENSOR ASSEMBLY - Throttle body assemblies having improved throttle position sensing assemblies and a method of integrating a throttle position sensor assembly with a throttle body assembly are described. The method comprises the steps of: i) press-fitting a sensor element onto a shaft of a throttle plate of a throttle body assembly; ii) engaging one or more inwardly extending members of the sensor element with one or more recessed portions formed on the shaft of the throttle plate; and iii) disposing an inductive rotary position sensor proximate the sensor element, wherein the press-fit engagement and one or more inwardly extending members limit axial and rotational movement of the sensor element with respect to the throttle plate, and wherein the inductive rotary position sensor detects a relative position of the sensor element for the purpose of ascertaining a position of the throttle plate. | 06-27-2013 |
20130160736 | INTAKE AIR FLOW CONTROL VALVE - An intake air flow control valve comprises a metal shaft having a noncircular cross sectional shape; and a valve element fixed to the metal shaft and arranged to close and open a cross section of the intake passage with rotation of the metal shaft. The valve element is an integral unit including a resin part of resin material and a metal part of metallic material. The resin part includes an intermediate portion formed with a shaft receiving groove in which the noncircular metal shaft is fit. The metal part extends along the shaft receiving groove, and includes a wide section to regulate fluid flow. | 06-27-2013 |
20130186369 | THROTTLE CABLE LOCKING ASSEMBLY - A throttle cable locking assembly ( | 07-25-2013 |
20130233276 | THROTTLE VALVE SYSTEM FOR AN ENGINE - An embodiment of an engine is described. The engine includes a first throttle valve. The first throttle valve is provided in a first intake passage coupled to an intake manifold. The first throttle valve has a default closed position. The engine further includes a second throttle valve. The second throttle valve is provided in a second intake passage coupled to the intake manifold. The second throttle valve has a default open position. The engine further includes a venturi pump that is provided between the second throttle valve and the intake manifold. When the second throttle valve is in the default open position, intake air flows through the venturi pump. | 09-12-2013 |
20130233277 | Motor-Driven Throttle Valve Device with Inductive Throttle Sensor and Inductive Throttle Sensor for Detecting Rotation Angle of Throttle Shaft of Motor-Driven Throttle Valve Device - In a situation where a conventional inductive throttle sensor is used with a motor-driven throttle valve device to detect the rotation angle of a throttle shaft, plural sensor connection conductor sections for connecting a connector terminal to a circuit board terminal section are formed on the cover on one lateral surface side of a circuit board in the long-axis direction. This increases the dimension of the cover in the short-axis direction (the dimension in the direction of air flow in an intake path). Consequently, it is difficult to install the motor-driven throttle valve device and inductive throttle sensor in a narrow engine room. This problem is addressed by using a separate member to achieve electrical conduction between a stator circuit board and a conductor routed inside the cover installed over the stator circuit board in a concentrated manner on one side of the circuit board. The problem is also addressed by disposing plural electrical conduction spots in a decentralized manner and away from a protrusion provided to limit the amount of axial movement of a gear. | 09-12-2013 |
20140026850 | SUPPLY SYSTEM FOR SUPPLYING AN INTERNAL COMBUSTION ENGINE WITH AIR AND FUEL - A supply system, fur supplying an internal combustion engine with air and fuel, is provided with a first fuel supply circuit, having at least one electro-injector controlled b an electronic unit, an intake conduit conveying combustion air, a throttle valve in the intake conduit, and a second fuel supply circuit, activated in the event of failure and having a nozzle that atomizes fuel due to a depression in the intake conduit; a fuel flow rate adjusting valve varies the flow rate exiting from the nozzle, under the operation of a mechanical transmission; according to the operation of the throttle valve. | 01-30-2014 |
20140041623 | FLOW-CONTROL ASSEMBLY COMPRISING A TURBINE-GENERATOR CARTRIDGE - A flow-control assembly may include a fluid conduit and a flow-control valve in the fluid conduit. The flow-control assembly may further include a fluid expansion conduit with an inlet defined at least in part by the fluid conduit and configured to selectively receive flow of a fluid from the fluid conduit. The fluid expansion conduit may further include an outlet in fluid communication with the fluid conduit downstream of the flow-control valve. A rotating fluid expander in the fluid expansion conduit may be configured to expand the fluid and thereby rotate and in some embodiments generate electricity. In a first position flow is substantially blocked. In a second position flow is allowed through the fluid expansion conduit. In a third position flow through the fluid conduit is allowed without necessarily passing through the fluid expansion conduit. | 02-13-2014 |
20140060484 | ELECTRIC ACTUATOR - An electric actuator includes an electric motor, a gear deceleration device, a housing, and a motor attachment plate. The electric motor is configured to convert electric power into rotation output. The gear deceleration device is configured to decelerate the rotation output of the electric motor. The electric motor and the gear deceleration device are attached to the housing. The motor attachment plate is provided for the electric motor and is fixed to the housing. A first positioning hole, which is formed through the motor attachment plate, and a second positioning hole, which is provided for the housing coincide with each other in a state where the electric motor is attached to the housing. | 03-06-2014 |
20140076277 | CARBURETOR WITH INTEGRATED CABLE RETAINER - A carburetor comprising a throttle cable housing mountable over a throttle cable and couplable to a retainer or receptacle that is an integrated part of the carburetor assembly. The throttle cable housing is configured with a molded protrusion that snaps into the retainer or receptacle on the carburetor so that once installed the throttle cable housing cannot be removed without a special tool. The retainer or receptacle accepts the snap in throttle cable housing and can be positioned in a variety of ways to facilitate the requirements of the engine manufacturer. In a rotary carburetor, the retainer or receptacle is preferable formed on the rotor cover. In a carburetor with a butterfly throttle valve, the retainer or receptacle is preferable formed as an integrated part of the metering chamber cover. | 03-20-2014 |
20140109867 | MULTI-FUNCTION CHOKE SWITCH - A choke assembly for an internal combustion engine comprising a user interface, a fuel valve, and a choke valve. The choke assembly further comprising an off position, in which the user interface is in a first position, the fuel valve is in a closed position, and the choke valve is in a closed position; a start position, in which the user interface is in a second position, the fuel valve is in an open position, and the choke valve is in the closed position; and a run position, in which the user interface is in a third position, the fuel valve is in the open position, and the choke valve is in an open position. | 04-24-2014 |
20140116378 | INTAKE AND INJECTION DEVICE, SYSTEM, AND INTERNAL COMBUSTION ENGINE - An intake and injection device for an internal combustion engine, in particular of a motorcycle, is provided, having a fuel injector system, which is situated in an intake manifold leading to a combustion chamber of the internal combustion engine. The fuel injector system is designed for injecting fuel both in the direction of a first inlet opening and in the direction of a second inlet opening of the combustion chamber. The intake and injection device also has a throttle valve situated in the intake manifold, which is pivotable around a rotational axis. The intake and injection device is designed in such a way that the rotational axis extends essentially in parallel to an intermediate plane, which extends centrally through the intake manifold between the first and second inlet openings. | 05-01-2014 |
20140123939 | SUPERCHARGER WITH CONTINUOUSLY VARIABLE DRIVE SYSTEM - A combustion system comprises a supercharger with an operating range from an idled condition up to a maximum rotations per minute (RPM) of its drive shaft. An engine in the system has an engine operating range from an idled condition up to a maximum RPM of its crank shaft, the engine having at least one airflow demand for each RPM in the engine operating range for providing peak torque output. A continuously variable transmission (CVT) is connected to the drive shaft for transmitting a variable amount of rotational energy to operate the supercharger. The control system controls the transmitting of the CVT based on the at least one airflow demand for each RPM in the engine operating range such that the supercharger variably pumps air across the operating range as the engine operates across the engine operating range. | 05-08-2014 |
20140137839 | VACUUM GENERATION WITH A PERIPHERAL VENTURI - Embodiments for generating vacuum at a throttle are presented. In one example, a system comprises a throttle positioned in an intake of an engine, and a peripheral venturi proximate the throttle, the venturi having an inlet positioned to interface with an edge of the throttle when the throttle is in a partially open position. In this way, vacuum may be generated by flow air through the venturi. | 05-22-2014 |
20140165961 | ACTIVE PLURAL INLET AIR INDUCTION SYSTEM - An air intake system includes a first inlet and a first valve member that moves between an open position and a closed position to regulate flow through a first passage toward a manifold. The first valve member is biased toward the open position. The system also includes a second inlet and a second valve member that moves between an open position and a closed position to regulate flow through a second passage toward the manifold. The second valve member is biased toward the closed position. Moreover, the system includes a sensor that detects a condition of the vehicle and a controller that simultaneously causes the first valve member to move toward the closed position and the second valve member to move toward the open position when the sensor detects the condition. | 06-19-2014 |
20140174401 | VORTEX GENERATOR DEVICE - A plate-shaped butterfly valve is rotatable to throttle intake airflow, which is to be drawn into an internal combustion engine, and to direct the intake airflow toward a specific periphery in a cross section of a passage. The passage has a passage wall defining a passage wall step. The passage wall step is located on the downstream side from a rotation locus of the butterfly valve relative to intake airflow. The passage wall step has a raised side and a depressed side, which are located on the downstream side and on the upstream side, respectively, relative to intake airflow. | 06-26-2014 |
20140182545 | Method of Using a Bypass Valve - A method of controlling a pump ( | 07-03-2014 |
20140209062 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - An object of the present invention is to enable a requested efficiency by cylinder group that is requested from a viewpoint of exhaust gas performance to be realized precisely when an internal combustion engine having a single throttle shared by a plurality of cylinder groups, and having an exhaust gas purifying catalyst for each of the cylinder groups is operated at a different air-fuel ratio at each of the cylinder groups. To this end, a control device for the internal combustion engine provided by the present invention calculates an efficiency ratio of a representative efficiency determined based on the requested efficiency by cylinder group and a requested efficiency by cylinder group, and calculates a requested torque by cylinder group by dividing a requested torque by the efficiency ratio for each of the cylinder groups. The control device controls an opening of the throttle in accordance with the requested torque, the representative efficiency based on the requested efficiency by cylinder group, and a target air amount calculated from a representative air-fuel ratio based on a target air-fuel ratio by cylinder group, and controls ignition timing for each of the cylinder groups, in accordance with a target efficiency by cylinder group that is calculated as a ratio of the requested torque by cylinder group and an estimated potential torque. | 07-31-2014 |
20140230782 | AIR TRAP VARIABLE MANIFOLD RUNNERS - A system and method for controlling the flow of air to an intake port of an engine is described that includes a flexible intake manifold runner comprised of helically wound braids. In one example, the length and cross-sectional area are mechanically interlinked. In this way, the flexible intake manifold runner can be tuned over a wider operating band while maintaining a lower cost design. | 08-21-2014 |
20140238344 | SYSTEM AND METHOD FOR LIMITING A VOLUMETRIC EFFICIENCY OF AN ENGINE DURING ENGINE CRANKING TO REDUCE EMISSION - A system according to the principles of the present disclosure includes an engine cranking module and a throttle control module. The engine cranking module determines whether an engine is cranking based on at least one of an input received from an ignition system and engine speed, and generates a signal indicating whether the engine is cranking. The throttle control module selectively adjusts a throttle of the engine to a fully closed position when the signal indicates that the engine is cranking. | 08-28-2014 |
20140261312 | INTAKE CONTROL SYSTEM FOR INTERNAL COMBUSTION ENGINE - An intake control system for an internal combustion engine is capable of ensuring a differential pressure across an EGR valve, and controlling an EGR amount with high accuracy. A target fresh air amount is set based on a demanded torque calculated according to operating conditions of the engine. A differential pressure across an EGR valve is set as a target differential pressure. When it is determined that the across-valve differential pressure is not in a state in which the target differential pressure can be ensured, an opening degree of the EGR valve is controlled to limit an EGR amount. An opening degree of a throttle valve is controlled based on the target fresh air amount, so as to ensure the target differential pressure. | 09-18-2014 |
20140305404 | INTAKE AIR QUANTITY CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - In the intake air quantity control device, a ring-shaped convex portion having an outer diameter being smaller than an inner diameter of the wave washer for damping the drive motor is formed on the bottom surface of the cylinder-shaped hole of the throttle body, and tapered portions are provided at an outer-diameter corner of the ring-shaped convex portion and at an outer-diameter corner of the bottom surface of the cylinder-shaped hole of the throttle body. | 10-16-2014 |
20140305405 | METHOD FOR ASSEMBLING AN AIR CONTROL VALVE - The invention relates to a method for assembling a regulation valve ( | 10-16-2014 |
20140331967 | VARIABLE INTAKE SYSTEM FOR VEHICLE, AND APPARATUS AND METHOD FOR CONTROLLING THE SAME - An intake system mounted to a vehicle controls an opening angle of a variable flap according to an RPM of an engine, an intake pressure, and an opening angle of a variable flap to optimize performance in various operation regions by detecting engine RPM and an intake air pressure, and determining an operation region based on the RPM of the engine; applying the intake pressure to determine a target amount of air and an opening angle of a variable flap for an operation region; driving an actuator to adjust an opening angle of the variable flap to a target opening angle; and analyzing an operation position of the actuator to detect an opening angle of the variable flap, and, when the target opening angle is not followed, correcting a drive of the actuator such that an opening angle of the variable flap follows the target opening angle. | 11-13-2014 |
20140352657 | CENTERFLOW THROTTLE VALVE - A throttle valve includes a valve body defining a flow passage. A plurality of non-overlapping occluder members are mounted in the flow passage and have synchronized movement due to devices externally of the flow passage. The occluder members have mating edges which engage when closed together to substantially restrict flow through the passage. The occluder members are movable to multiple open positions wherein the mating edges are spaced apart to permit unobstructed and centralized flow through the passage. | 12-04-2014 |
20150013639 | VALVE DEVICE FOR A MOTOR VEHICLE - A valve device for a motor vehicle includes a housing, a flow channel located in the housing, and a flap arranged in the flow channel for closing the flow channel. The flap has regions in which a shaft penetrating the flap is fastened, and the shaft is rotatably supported in the housing. The flap has a spherical elevation at least on one side. | 01-15-2015 |
20150040860 | BUTTERFLY BYPASS VALVE, AND THROTTLE LOSS RECOVERY SYSTEM INCORPORATING SAME - A butterfly bypass valve includes a housing defining a bypass flow passage with a pivotable throttle plate therein. An outer edge of the throttle plate in a closed position is in sealing engagement with a sealing portion of the housing such that the throttle plate restricts fluid flow through the bypass flow passage. The throttle plate is pivotable to an open position to allow fluid flow through the bypass flow passage. A port in the housing allows a portion of fluid passing through the bypass flow passage to be removed when the throttle plate is pivoted to the open position. A predetermined amount of pivoting of the throttle plate toward the open position can occur so as to allow flow through the port, while maintaining the edge of the throttle plate in substantially sealing engagement with the sealing portion so as to substantially prevent flow through the bypass passage. | 02-12-2015 |
20150083078 | ENGINE INCLUDING MOTORIZED THROTTLE VALVE - An engine including a motorized throttle valve that can implement mutually neighboring disposition of a throttle body and a cylinder head and can implement a good opening and closing responsibility thereof. A swelling portion is formed on a side wall of a valve chamber in such a manner so as to bite between those of throttle bodies which neighbor with each other in order to accept a protrusion of part of a valve system in a radial direction of first and second camshafts. An electric motor is disposed at one side of the group of the throttle bodies. A speed reduction mechanism, for transmitting output power of the electric motor to a valve shaft, is disposed between those throttle bodies, which neighbor with each other at a different location in the group of the throttle bodies, in a neighboring relationship with the valve chamber. | 03-26-2015 |
20150090219 | Flap device and intake system - A valve device for an intake system of an internal combustion engine may include a housing and a flap arrangement. The housing may have one inlet duct per cylinder of the internal combustion engine. The flap arrangement may have a flap for each inlet duct for varying the cross-section of the respective inlet duct through which a flow can pass. The respective flap may be a trough-shaped flap having a curved stirrup region. The respective flap may be arranged between the stirrup ends eccentrically with respect to a flap pivot axis. The flap arrangement may have a common actuating shaft for the common pivoting of the flaps about the flap pivot axis. The actuating shaft may be coupled with an adjusting drive via a lever element having a metallic insert and a plastic body injected onto the insert. | 04-02-2015 |
20150114343 | VEHICLE OPERATION SYSTEM AND METHOD - A method of operating a vehicle having an engine, an engine control unit (ECU), a throttle operator, and a throttle body fluidly communicating with the engine. A throttle valve disposed in the throttle body regulates fluid flow to the engine. A throttle valve actuator is connected thereto for controlling a throttle valve position. A key receiver is configured to link to a key. The method includes linking a key to the key receiver and initiating engine operation. If the key is linked to the key receiver and engine operation has been initiated, an identification code of the key is read and an authorization status of the key is thereby determined. If the key is determined to be authorized, the throttle valve position is controlled based in part on a throttle operator position. If the key is determined to be unauthorized, the throttle valve position is limited to a security limit. | 04-30-2015 |
20150122221 | TWO-WAY METERING DEVICE AND APPLICATIONS OF SAID METERING DEVICE - The invention relates to a double metering device for metering a fluid of an internal combustion engine, said metering device comprising a body in which are arranged a first ( | 05-07-2015 |
20150128903 | FRESH AIR SYSTEM FOR AN INTERNAL COMBUSTION ENGINE - A fresh air system for supplying combustion chambers of an internal combustion engine with fresh air may include a housing, through which at least one fresh air path passes, and a flap mechanism, which includes at least one flap adjustably mounted on the housing. The flap may be rotatably adjustable between a closed position, in which the flap closes off the fresh air path in a fluid-tight manner and an opened position, in which the flap opens the fresh air path for fresh air to flow through. The flap mechanism may include a spring-elastic preload element, which supports itself on the housing and preloads the flap against at least one of the opened position and the closed position. | 05-14-2015 |
20150136078 | AIRFLOW CONTROL APPARATUS - An airflow control apparatus does not impede fluid flow and does not reduce intake efficiency even when a flow passage area is decreased by the valve area. The airflow control apparatus includes a housing whose interior forms a fluid passage, bushes attached to the housing interior, a shaft held by the bushes, and a valve attached to the housing interior and rotatable in synchronization with the shaft. The passage includes an upstream passage, a dead band, and a downstream passage. Bush attachment grooves are provided in a portion of the passage. The bottom surface of the bush attachment grooves include an opening. The bushes are rotatably fitted to the opening and are attached to the housing interior. A first cross section perpendicular to a flow direction in the upstream passage has a larger cross-sectional area than a second cross section perpendicular to the flow direction in the downstream passage. | 05-21-2015 |
20150144098 | SYSTEM AND METHOD FOR DIAGNOSING A FAULT IN A THROTTLE AREA CORRECTION THAT COMPENSATES FOR INTAKE AIRFLOW RESTRICTIONS - A system according to the principles of the present disclosure includes a desired throttle area module, a correction factor module, a throttle control module, and an airflow compensation diagnostic module. The desired throttle area module determines a desired throttle area based on a driver input. The correction factor module determines a throttle area correction factor based on a difference between an estimated intake airflow and a measured intake airflow to compensate for a decrease in the measured intake airflow due to a flow restriction. The throttle control module determines a desired throttle position based on the desired throttle area and the throttle area correction factor. The airflow compensation diagnostic module diagnoses a fault in an amount of intake airflow compensation based on the throttle area correction factor. | 05-28-2015 |
20160076655 | THROTTLE VALVE HAVING A PRESSURE RELIEF VALVE - A pressure relief valve is associated with a throttle valve to shunt flow around a throttle valve element which is selectively positionable to throttle flow through the throttle valve. In a presently disclosed embodiment, a throttle valve comprises a valve body circumscribing a main flow passage extending along a central longitudinal axis between an inlet and an outlet. A valve plate is disposed within the main flow passage for turning about an axis of turning which perpendicularly intersects the central longitudinal axis for selectively throttling flow through the main flow passage. A pressure relief mechanism is mounted on the valve body. | 03-17-2016 |
20160123284 | Throttle Valve Apparatus for an Internal Combustion Engine and Motor Cycle Provided therewith - Proposed is a throttle valve apparatus for an internal combustion engine, with a housing and an intake pipe comprising a through-flow cross section and a throttle valve that is pivotable relative to the through-flow cross section, which is actuatable by means of a throttle valve shaft and with an actuating device arranged on the housing, by means of which the throttle valve can be releasably fixed in a cold starting position in which the through-flow cross section is at least partially opened. | 05-05-2016 |
20160160764 | THROTTLE VALVE AND INTERNAL COMBUSTION ENGINE COMPRISING SUCH A THROTTLE VALVE - The present invention relates to a throttle valve adapted to equip an air intake system in an internal combustion engine, in particular an explosion engine. The throttle valve comprises: a body delimiting an air intake pipe; a valve member mounted rotatably in the pipe about an axis of rotation and comprising a spherical portion shutting off the pipe in the closed configuration; means for moving the valve member in rotation about the axis of rotation between different configurations of the throttle valve; and a bearing ring which receives a spherical outer surface of the valve member in sliding bearing contact. The throttle valve is characterized in that it also comprises a seal which is elastically deformable, which is arranged between the body and the bearing ring and which is adapted to take up forces to which the valve member and the bearing ring are subjected during a back-fire through the pipe. The invention also relates to an internal combustion engine, in particular an explosion engine, comprising such a throttle valve. | 06-09-2016 |
20160169122 | THROTTLE VALVE ASSEMBLY BLADE | 06-16-2016 |
20160190900 | Direct Current Electric Machine - The disclosure relates to a direct current electric machine comprising a housing, a rotor having coils configured as electromagnets, and a stator with stator magnets. The rotor and the stator are positioned inside the housing. The electric machine also comprises sliding contacts configured to conduct current which is to be conducted through the coils of the rotor, as a commutator. The electric machine further comprises an interference suppressor configured to suppress electrical interference that emanates from the direct current electric machine. The interference suppressor is positioned outside of the housing. | 06-30-2016 |
20160252039 | FUEL INJECTED ENGINE SYSTEM | 09-01-2016 |
20160377001 | SCREW ON THROTTLE BODY ADAPTER - An adapter assembly connected to a throttle body housing of an electronic throttle control assembly with a connecting feature. The adapter assembly of the present invention provides significantly lower cost assembly, and permits single side molding of the adapter assembly. The adapter assembly also includes alternative features for a captured seal or a void to contain excess thread sealer, and also permits a an anti-rotation feature, or locking tab, that is indexed to the receiving element, where the screw stop angle of the adapter assembly does not have to be controlled to provide a desired tab orientation. | 12-29-2016 |