Patent application number | Description | Published |
20100192543 | CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - An exhaust passage of an internal combustion engine is provided with an upstream side three-way catalyst capable of purifying exhaust gas and a particulate filter (PM filter) for trapping particulate matter PM contained in exhaust gas. Catalyst warm-up control is exercised for the purpose of warming up mainly the upstream side three-way catalyst at cold start. Filter regeneration control for removing the particulate matter PM accumulating on the particulate filter from the filter is exercised at the cold start after the catalyst warm-up control is exercised. | 08-05-2010 |
20100192883 | VARIABLE VALVE APPARATUS - A first overlap amount that is an overlap amount of overlap between an intake valve opening timing and an exhaust valve opening timing, is calculated based on rotation speed of an internal combustion engine, load on the engine, and temperature of a working fluid. A second overlap amount that is the overlap amount that is set so that the relative rotation phase of at least one of the intake-side camshaft and the exhaust-side camshaft relative to the rotation phase of the crankshaft is fixed when the engine stops, is calculated based on the temperature of the working fluid. The overlap amount is set to equal to the second overlap amount, if the first overlap amount is larger than the second overlap amount. The overlap amount is set to equal to the first overlap amount, if the first overlap amount is less than or equal to the second overlap amount. | 08-05-2010 |
20100222986 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - An exhaust valve early-closure control brings about blowback of exhaust gas into an intake system. However, if the exhaust valve early-closure control is executed, for example, during a first idle operation immediately following the startup of the engine, or the like, the amount of blowback exhaust gas becomes excessively large. Therefore, when the post-startup increase amount has decreased to or below a lower-limit criterion value, the ECU prohibits the exhaust valve early-closure control, and changes the control to a usual valve timing control. As a result, during a period during which the combustion state has a stability margin and the amount of emission of HCs and the like is large, the exhaust emission quality can be bettered by the exhaust valve early-closure control. Besides, when the post-startup increase amount has decreased, the combustion state can be stabilized by prohibiting the exhaust valve early-closure control. | 09-02-2010 |
20100236227 | HYDRAULIC SYSTEM CONTROL DEVICE AND VALVE TIMING CONTROL DEVICE - When a hydraulic pressure generation source begins to generate hydraulic pressure, the present invention measures the hydraulic pressure in an oil supply line connected to a hydraulic actuator, and sets a viscosity index value indicating an oil viscosity in accordance with the pace at which the measured hydraulic pressure rises. The viscosity index value is calculated and set so that the slower the pace at which the measured hydraulic pressure rises, the higher the viscosity indicated by the viscosity index value. | 09-23-2010 |
20100294245 | SPARK IGNITION TYPE INTERNAL COMBUSTION ENGINE - Disclosed is a spark ignition type internal combustion engine, which comprises a variable compression ratio mechanism capable of changing a mechanical compression ratio, and a variable valve timing mechanism capable of controlling the closing timing of an intake valve. The intake air flow to be fed to the inside of a combustion chamber is controlled mainly by changing the closing timing of an intake valve so that the mechanical compression ratio is set higher at an engine low-load miming time than that at an engine high-load running time. The mechanical compression ratio at the engine low-load running time before completion of the warm-up of the internal combustion engine is set lower than that at the engine low-load running time after completion of the warm-up of the internal combustion engine. Although the expansion ratio at the engine low-load running time is raised to improve the mileage, it is possible at an engine cold start to heat an exhaust purifying catalyst promptly and to suppress the deterioration of an exhaust emission. | 11-25-2010 |
20110178665 | CONTROLLER FOR HYBRID SYSTEM - A controller for the hybrid system includes: an alcohol concentration detector that detects alcohol concentration of fuel; a demanded coolant temperature setting device that sets a demanded coolant temperature higher as the alcohol concentration increases; an internal combustion engine stopped state determination device that determines whether an internal combustion engine is stopped; an external electric power source connection determination device that determines whether a storage battery is connected to an external electric power source; and a coolant pre-heating device that supplies electric power to a coolant heater until coolant temperature of the coolant reaches the demanded coolant temperature if the internal combustion engine is in the stopped state and the storage battery is connected to the external electric power source. | 07-21-2011 |
20110232607 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - At a time of start of an internal combustion engine, vaporization or atomization of a fuel for initial explosion is promoted, and thereby, discharge of HC can be restrained. The internal combustion engine includes a fuel injection valve which injects a fuel into an intake port, and an exhaust valve which can be stopped in a closed state for each cylinder. When the cylinder before initial explosion is in an exhaust stroke, the exhaust valve of the cylinder is stopped in a closed state. Subsequently, the fuel injection valve of the cylinder in which the exhaust valve is stopped in the closed state in the exhaust stroke is caused to inject the fuel for initial explosion so that an injection time is before opening timing of an intake valve or coincides with the opening timing. | 09-29-2011 |
20110271920 | SPARK IGNITION TYPE INTERNAL COMBUSTION ENGINE - A spark ignition type internal combustion engine of the present invention is provided with a variable closing timing mechanism which can change a closing timing of an intake valve after suction bottom dead center wherein the amount of intake air fed into a combustion chamber is controlled mainly by changing the closing timing of the intake valve. At the time of engine cold start, the closing timing of the intake valve is advanced compared with the time of engine warm operation. At the time of engine cold start, the air-fuel mixture which is taken into a combustion chamber is blown back into the engine intake passage whereby the air-fuel ratio varies among cylinders, but according to the spark ignition type internal combustion engine of the present invention, it is possible to suppress such variation in the air-fuel ratio among cylinders. | 11-10-2011 |
20110290218 | SPARK IGNITION TYPE INTERNAL COMBUSTION ENGINE - A spark ignition type internal combustion engine of the present invention comprises a variable closing timing mechanism able to change a closing timing of an intake valve after intake bottom dead center and an EGR mechanism making a part of the exhaust gas flow again into a combustion chamber as EGR gas. The EGR mechanism is controlled so that the amount of EGR gas is reduced when the closing timing of the intake valve is at a retarded side, compared with when it is at an advanced side. Due to this, occurrence of variation among cylinders in the air-fuel ratio and intake resistance along with blowback of intake gas can be suppressed. | 12-01-2011 |
20120023913 | CATALYST ABNORMALITY DIAGNOSIS APPARATUS - The air-fuel ratio of exhaust gas supplied to a catalyst is alternately and actively switched between a rich state value and a lean state value. In conjunction with the performance of this active air-fuel ratio control, the oxygen storage capacity of the catalyst is measured. Whether the catalyst is normal or abnormal is determined by comparing the measured value of the oxygen storage capacity with a predetermined determination value. The temperature of the catalyst is acquired, and the determination value is set based on the acquired catalyst temperature. The determination value is set so as to decreases with increasing catalyst temperature when the catalyst temperature is equal to or higher than a predetermined temperature. | 02-02-2012 |
20120060481 | VEHICLE CONTROL DEVICE - A vehicle control device applied to a vehicle including an internal combustion engine and an electrically heated catalyst which is warmed by applying a current, and includes a catalyst carrier supporting a catalyst and a carrier retention unit that retains the catalyst carrier and has an electrical insulation property. The control unit performs a control of suppressing a supply of an unburned gas from the internal combustion engine to the electrically heated catalyst so that the carrier retention unit is maintained at a lower temperature than the catalyst, when a condition for performing a fuel cut of the internal combustion engine during a deceleration is satisfied. Therefore, it is possible to suppress a rapid cooling of the catalyst, and it becomes possible to maintain a temperature of the carrier retention unit at a lower temperature than a temperature of the catalyst. | 03-15-2012 |
20120131907 | Exhaust Gas Purification Apparatus of an Internal Combustion Engine - The present invention has for its subject to avoid a situation that condensed water stays around electrode terminals, in an electric heating type exhaust gas purification apparatus which is arranged in an exhaust system of an internal combustion engine. In order to solve this subject, the present invention resides in an exhaust gas purification apparatus of an internal combustion engine which is provided with a catalyst carrier having electrodes, a case in which the catalyst carrier is accommodated, a mat member arranged between the catalyst carrier and the case, a space part extending from the catalyst carrier to the case while passing through the mat member, and electrode terminals accommodated in said space part for supplying electric power to the electrodes of the catalyst carrier, wherein exhaust gas and condensed water are kept from permeating into the space part through the mat member or the catalyst carrier, by the provision of a pressure supply unit which supplies a positive pressure to the space part. | 05-31-2012 |
20120171082 | ELECTRIC HEATING CATALYST - The electricity is suppressed from flowing through a case of an electric heating catalyst. The electric heating catalyst comprises a heat generating element which generates heat by applying electricity; a case which accommodates the heat generating element; a mat which is provided between the heat generating element and the case and which insulates the electricity; and an inner tube which is provided on an inner side as compared with the case and on an outer side as compared with the heat generating element and which is supported by the mat while dividing the mat into a part disposed on a case side and a part disposed on a heat generating element side; wherein distances between the inner tube and the case are provided such that the distance is required to support the inner tube at a portion at which the mat exists, and the distance is required to avoid occurrence of any electric discharge between the inner tube and the case at a portion at which the inner tube protrudes from the mat. | 07-05-2012 |
20120227385 | AIR/FUEL RATIO CONTROL DEVICE FOR INTERNAL-COMBUSTION ENGINE - An internal-combustion engine of the invention includes a catalyst which has an oxidizing ability and is provided in an exhaust passage, wherein an air/fuel ratio of an air/fuel mixture is controlled so that the air/fuel ratio leaner than a theoretical air/fuel ratio and the air/fuel ratio richer than the theoretical air/fuel ratio are alternated with a predetermined amplitude with respect to a target air/fuel ratio. On the assumption that the temperature of the catalyst is referred to as a catalyst temperature, an amplitude set according to the catalyst temperature is adopted as the predetermined amplitude, and the amplitude set when the catalyst temperature is higher than a predetermined temperature is smaller than the amplitude set when the catalyst temperature is lower than the predetermined temperature. | 09-13-2012 |
20120227720 | FUEL INJECTION APPARATUS FOR INTERNAL COMBUSTION ENGINE - The fuel injection apparatus includes: a fuel injector having a leading end that has an internal space in which fuel is accumulated and has a fuel injection port; and an adsorbent, capable of selectively adsorbing an alcohol component in a blended fuel of gasoline and alcohol, disposed in the internal space. The fuel injection apparatus controls an injection amount from the fuel injector such that an air-fuel ratio is a controlled target air-fuel ratio based on an alcohol concentration of a blended fuel supplied to the fuel injector. In this fuel injection apparatus, a fuel pressure is brought to a predetermined high fuel pressure during cold starting of the internal combustion engine. At this time, an adsorbed amount of alcohol on the adsorbent is estimated and any deviation in the air-fuel ratio of the internal combustion engine is corrected based on the adsorbed amount of alcohol. | 09-13-2012 |
20120245823 | AIR-FUEL RATIO CONTROL APPARATUS FOR AN INTERNAL COMBUSTION ENGINE - After rich control for controlling the air/fuel ratio of a mixture to be an air/fuel ratio richer than stoichiometric air/fuel ratio, lean control is carried out so that air/fuel ratio of the mixture formed in the combustion chamber is controlled to be an air/fuel ratio leaner by a predetermined degree than the stoichiometric air/fuel ratio, or the air/fuel ratio of the mixture is controlled to temporarily be the air/fuel ratio leaner by the predetermined degree than the stoichiometric air/fuel ratio. If lean control is carried out after rich control is finished, temporary lean control provides that a degree of how much the air/fuel ratio of the mixture is leaner than the stoichiometric air/fuel ratio when the air/fuel ratio of the mixture is controlled to be the air/fuel ratio leaner than the stoichiometric air/fuel ratio in lean control is lower than the predetermined degree according to the temperature of a catalyst. | 09-27-2012 |
20120247090 | EXHAUST GAS PURIFYING DEVICE FOR INTERNAL COMBUSTION ENGINE - The exhaust gas purifying device of an internal combustion engine includes: an electrically heated catalyst which is provided on an exhaust passage of the internal combustion engine, which purifies the exhaust gas drawn to the exhaust passage, and is warmed by electrification; and an electrification characteristic setting unit which set an electrification characteristic indicating a characteristic of an electrification resistance value in the electrically heated catalyst, in accordance with an electrification condition at a time of starting the electrification of the electrically heated catalyst. Thus, various determinations and controls relating to the electrically heated catalyst and using the electrification characteristic can be accurately performed. | 10-04-2012 |
20120260638 | VEHICLE CONTROL DEVICE - A vehicle control device applied to a vehicle including an internal combustion engine and an electrically heated catalyst which is warmed by applying a current, and includes a catalyst carrier supporting a catalyst and a carrier retention unit that retains the catalyst carrier and has an electrical insulation property. The vehicle control device includes an insulation resistance determination unit which determines whether or not an insulation resistance of the carrier retention unit decreases to a value equal to or lower than a predetermined value, and an applying current prohibition unit which prohibits applying the current to the electrically heated catalyst when the insulation resistance determination unit determines that the insulation resistance decreases to the value equal to or lower than the predetermined value. Therefore, it is possible to appropriately control of applying the current to the electrically heated catalyst based on the insulation property of the carrier retention unit, and hence it becomes possible to appropriately prevent an electrical leak of the electrically heated catalyst. | 10-18-2012 |
20120266843 | FUEL INJECTION APPARATUS FOR INTERNAL COMBUSTION ENGINE - A fuel injection apparatus for an internal combustion engine including a fuel injector having a leading end portion that has an internal space in which fuel is stored and an injection nozzle for injecting fuel; and an adsorbent disposed in the internal space, the adsorbent being capable of selectively adsorbing an alcohol component in a blended fuel of gasoline and alcohol. The adsorbent has a characteristic such that an amount of alcohol adsorption is small when a fuel pressure is low and large when the fuel pressure is high. Adsorption of alcohol onto, and desorption of alcohol from, the adsorbent can be controlled by changing the fuel pressure in the internal space. | 10-25-2012 |
20120318237 | FUEL INJECTION APPARATUS FOR INTERNAL COMBUSTION ENGINE - A fuel injection apparatus includes: an adsorbent disposed in an internal space of a leading end portion of a fuel injector, the adsorbent being capable of selectively adsorbing an alcohol component in the blended fuel of gasoline and alcohol; fuel pressure controller capable of achieving states in which a pressure of fuel to be supplied to the fuel injector is set to a low or high pressure range having a small or large adsorbed amount of alcohol on the adsorbent; and split injection controller that makes the fuel injector inject fuel for one cycle in a plurality of times, when the pressure of fuel to be supplied to the fuel injector is set to the high pressure range. | 12-20-2012 |
20120318241 | FUEL INJECTION APPARATUS FOR INTERNAL COMBUSTION ENGINE - The fuel injection apparatus for the internal combustion engine includes: a fuel injector having a leading end portion that has an internal space in which fuel is accumulated and an injection port for injecting fuel; and an adsorbent disposed in the internal space, the adsorbent being capable of selectively adsorbing an alcohol component in a blended fuel of gasoline and alcohol. In this fuel injection apparatus, it is determined whether or not a fuel pressure is higher than a predetermined low fuel pressure when a request is issued for bringing an internal combustion engine to a stop. If it is determined that the fuel pressure is higher than the low fuel pressure, the fuel pressure is kept at the low fuel pressure for a predetermined period of time before the internal combustion engine is brought to a stop. | 12-20-2012 |
20130011300 | EXHAUST GAS PURIFYING DEVICE FOR INTERNAL COMBUSTION ENGINE - An exhaust gas purifying device for an internal combustion engine, including: an electrically heated catalyst which has a catalyst carrier supporting a catalyst and a carrier retention unit which is provided on an outer periphery of the catalyst carrier, which retains the catalyst carrier, and which has an electrical insulation property; and a cooling unit which cools the carrier retention unit. Therefore, it is possible to prevent the temperature of the carrier retention unit from becoming high, and it becomes possible to appropriately ensure the insulation property of the electrically heated catalyst. Hence, it becomes possible to expand a condition range in which the current can be applied to the electrically heated catalyst. | 01-10-2013 |
20130022513 | ELECTRIC HEATING TYPE CATALYST AND A METHOD FOR MANUFACTURING THE SAME - Electricity is suppressed from flowing to a case ( | 01-24-2013 |
20130025267 | ELECTRICALLY-HEATED CATALYTIC CONVERTER - An electrically-heated catalytic converter comprises a catalyst support which produces heat when electric current is applied, a holding mat made of an electrical insulating material, the holding mat being provided so as to cover an outer circumference of the catalyst support, and a case which houses the catalyst support and holds the catalyst support via the holding mat. The catalytic converter treats gas flowing in the case by a catalyst supported on the catalyst support. The holding mat has a water-absorbing property. An insulation layer made of an electrical insulating material is provided between the case and the holding mat. | 01-31-2013 |
20130031954 | PM AMOUNT DETECTING APPARATUS - A PM amount detecting apparatus having a PM sensor installed in a sensor case into which a part of exhaust gas of an internal combustion engine allowed to flow through an exhaust gas passage is intaken. The sensor case has a structure which lowers a flow rate of the exhaust gas therein to such an extent that PM is capable of performing thermal phoresis, and a structure which generates therein such a temperature difference that PM is guided to the PM sensor in accordance with the thermal phoresis. | 02-07-2013 |
20130036805 | FAILURE DETECTION APPARATUS AND FAILURE DETECTION METHOD FOR A PARTICULATE FILTER - The present invention is intended to provide a technique which is capable of improving detection accuracy at the time of performing failure detection of a particulate filter by the use of a PM sensor. In the present invention, the PM sensor is arranged in an exhaust passage at the downstream side of the particulate filter. Then, the presence or absence of a failure in the particulate filter is determined by making a comparison between an output value of the PM sensor at the time when a predetermined period of time has elapsed after the execution of PM removal processing to remove the particulate matter deposited on the PM sensor is completed, and a predetermined threshold value. At this time, the threshold value is set based on an average value of an amount of intake air in an internal combustion engine during the passage of the predetermined period of time. | 02-14-2013 |
20130055702 | ELECTRICALLY HEATED CATALYST - The present invention is intended to suppress a decrease in insulation resistance between electrodes and a case in an electrically heated catalyst (EHC). The EHC according to the present invention is provided with a heat generation element that is electrically energized to generate heat thereby to heat a catalyst, a case that receives a heat generation element therein, an insulating member that is arranged between the heat generation element and the case for insulating electricity, electrodes that are connected to the heat generation element through an electrode chamber which is a space located between an inner wall surface of the case and an outer peripheral surface of the heat generation element, and a communication passage that makes communication between a portion of an exhaust system of the internal combustion engine, which is other than a portion thereof in which the electrically heated catalyst is arranged, and the electrode chamber. | 03-07-2013 |
20130156651 | ELECTRICALLY HEATED CATALYST - Electricity is suppressed from flowing to a case ( | 06-20-2013 |
20130164185 | ELECTRICALLY HEATED CATALYST - The flow of electricity to the case ( | 06-27-2013 |
20130164188 | ELECTRICALLY HEATED CATALYST - Electricity is suppressed from flowing to a case ( | 06-27-2013 |
20130167514 | ELECTRICALLY HEATED CATALYST - In an electrically heated catalyst, an electrode is connected to a heat generating element while passing through a through-hole which is formed through a case and an electrode chamber which is formed between an inner wall surface of the case and an outer circumferential surface of the heat generating element. Further, a support member, which is formed of an electric insulator material and which supports the electrode in the through-hole formed through the case, extends along the electrode to the inside of the electrode chamber. | 07-04-2013 |
20130183205 | ELECTRICALLY HEATED CATALYST - Electricity is suppressed from flowing through a case of an electrically heated catalyst. For this purpose, the case for accommodating a heat generating element includes a tubular portion which is formed in parallel to a central axis, an inlet portion which is provided on the upstream side from the tubular portion and which has an inner diameter smaller than that of the tubular portion, an inclined portion which connects the tubular portion and the inlet portion, and an introducing portion which extends from a connected portion between the inlet portion and the inclined portion toward inside of the case and which is curved so that a center of curvature is positioned at the outside; and an inner tube interposed by a mat for supporting the heat generating element includes a tubular portion which is formed in parallel to a central axis, and an inclined portion which is provided on the upstream side from the tubular portion, which has inner diameters that are decreased on the more upstream side, and which is curved. | 07-18-2013 |
20130200060 | ELECTRIC HEATING CATALYST - An object of the present invention is to suppress the decrease in the insulation resistance between an electrode and a case resulting from condensed water in an electric heating catalyst (EHC). The EHC includes a heat generating element which generates heat by applying electricity and which heats a catalyst, a case which accommodates the heat generating element, and an insulating member which is provided between the heat generating element and the case, and which provides insulation from electricity. An electrode chamber, which is a space formed around an electrode connected to the heat generating element, is occluded by an occluding member, which has an airtightness higher than those of the heat generating element and the insulating member, in the case of the EHC. | 08-08-2013 |
20130209321 | ELECTRIC HEATING CATALYST - The present invention is intended to suppress a reduction in insulation between a heat generation element and a case resulting from PM in an electric heating catalyst. In the electric heating catalyst which has an inner pipe ( | 08-15-2013 |
20130213362 | FUEL INJECTION APPARATUS FOR INTERNAL COMBUSTION ENGINE - The fuel injection apparatus includes: a fuel injector having a leading end portion that has an internal space in which fuel is accumulated and an injection port for injecting fuel; and an adsorbent disposed in the internal space, the adsorbent being capable of selectively adsorbing an alcohol component in a blended fuel of gasoline and alcohol. The fuel injection apparatus controls an injection amount from the fuel injector such that an air-fuel ratio of an internal combustion engine is a control target air-fuel ratio based on an alcohol concentration of the blended fuel to be supplied to the fuel injector. In this fuel injection apparatus, a fuel pressure is brought to a predetermined low fuel pressure when a request is issued for desorbing alcohol adsorbed on the adsorbent. | 08-22-2013 |
20130291630 | FAILURE DETECTION APPARATUS FOR AN ELECTRICALLY HEATED CATALYST - Whether or not an electrically heated catalyst is normal is detected by accurately detecting whether the temperature of the electrically heated catalyst has gone up. To this end, provision is made for an air fuel ratio control device that adjusts an air fuel ratio of an exhaust gas flowing into the electrically heated catalyst to a rich air fuel ratio, at the time of starting of an internal combustion engine, a downstream side detection device that is arranged at the downstream side of the electrically heated catalyst and detects a concentration of oxygen in the exhaust gas, and a determination device that determines whether the electrically heated catalyst is electrically energized, based on the time at which the oxygen concentration detected by the downstream side detection device changes to a value indicating a rich air fuel ratio at the time when the air fuel ratio of the exhaust gas is adjusted by the air fuel ratio control device to the rich air fuel ratio, after starting of the internal combustion engine. | 11-07-2013 |
20130305698 | ELECTRIC HEATING CATALYST - The electricity is suppressed from flowing through a case ( | 11-21-2013 |
20130306623 | ELECTRIC HEATING CATALYST - The electricity is suppressed from flowing through a case ( | 11-21-2013 |
20130312393 | ELECTRIC HEATING CATALYST - An object of the invention is to enhance the exhaust gas purification rate and to reduce the possibility of breakage of a heater element in an electric heating catalyst (EHC) by generating heat by the heater element in a improved manner. A pair of electrodes including surface electrodes | 11-28-2013 |
20130312394 | ELECTRIC HEATING CATALYST - The electricity is suppressed from flowing through a case ( | 11-28-2013 |
20130312395 | ELECTRIC HEATING CATALYST - The present invention is intended to achieve improvement in an exhaust gas purification rate as well as suppression of breakage or damage of a heater element in an electric heating catalyst (EHC), by causing the heater element to generate heat in a more suitable manner. In an EHC according to the present invention, a pair of surface electrodes ( | 11-28-2013 |
20130336847 | EXHAUST GAS PURIFICATION APPARATUS OF AN INTERNAL COMBUSTION ENGINE - The present invention has an object to prevent a short-circuit between a heat generation element, which is electrically energized to generate heat, and a case in an electrically heated type exhaust gas purification apparatus. In order to achieve this object, the present invention is constructed such that a laminated body composed of a holding member and an inner cylinder is arranged between a heat generation element, which is electrically energized to generate heat, and a case which covers the heat generation element, and the inner cylinder has an upstream side end portion extended to a more upstream side than an upstream side end face of said heat generation element and an upstream side end face of said holding member to form an extension portion, which is formed with a protruding portion protruding to an inner side in a diametrical direction. A flow of an exhaust gas, which flows backwards after colliding with the heat generation element, will be obstructed by said protruding portion. As a result, the backflow exhaust gas stops flowing into a gap between the case and the inner cylinder. Therefore, a drop in insulation, resulting from an inner peripheral surface of the case, an upstream side end face of the holding member, and an outer peripheral surface of the inner cylinder being covered with particulate matter, is suppressed. | 12-19-2013 |
20140033688 | ELECTRICALLY HEATED CATALYST - The present invention is intended to suppress a short circuit between a heat generation element and a case in an electrically heated catalyst. An electrically heated catalyst ( | 02-06-2014 |
20140216019 | ELECTRICALLY HEATED CATALYST - Electricity is suppressed from flowing to a case of an electrically heated catalyst. In the electrically heated catalyst which is provided with a heat generation element adapted to be electrically energized to generate heat, the case in which the heat generation element is received, an inner pipe arranged between the heat generation element and the case for insulating electricity, an inner mat arranged between the heat generation element and the inner pipe, and an outer mat arranged between the inner pipe and the case, the inner pipe includes a tubular portion that is arranged in the surrounding of the heat generation element and is formed in parallel to a central axis of the heat generation element, and a downstream side inclination portion that is arranged at the downstream side of the tubular portion, with an inside diameter thereof becoming smaller in a direction toward a downstream side. A downstream side bent portion, being a boundary between the tubular portion and the downstream side inclination portion, is formed in the vicinity of a downstream side end portion of the outer mat. | 08-07-2014 |
20140230414 | ELECTRIC HEATING CATALYST - An electric heating catalyst (EHC) in which a short circuit between a heat generation element and a case in EHC is suppressed. The EHC includes a heat generation element (catalyst carrier) electrically energized to generate heat; a case receiving the heat generation element; an insulating support member between the heat generation element and the case; a tubular inner pipe inserted into the insulating support member and located between the heat generation element and the case. The inner pipe has an end protruding into an exhaust gas from the insulating support member's end face, and the inner pipe has an electrically insulating layer formed on an entire surface, or the inner pipe is formed of an electrically insulating material; and an inner pipe heater supplied with electricity through a path different from a path through which electricity is supplied to the heat generation element, thereby heating the inner pipe's protrusion portion. | 08-21-2014 |
20140292350 | FAILURE DETECTION APPARATUS FOR AN ELECTRICALLY HEATED CATALYST - The present invention is intended to detect insulation failure of an EHC. In the invention, a heat generation element of the EHC is electrically insulated by an insulating member. Then, a determination as to whether insulation failure has occurred is made based on an insulation resistance value of the insulating member at the time when an amount of water absorption in the insulating member is smaller than a predetermined amount of water absorption and when an amount of PM deposition in the insulating member is smaller than a predetermined amount of PM deposition, a change in the insulation resistance value of the insulating member at the time when the amount of water absorption in the insulating member decreases from an amount equal to or larger than the predetermined amount of water absorption to an amount smaller than the predetermined amount of water absorption, and a change in the insulation resistance value of the insulating member at the time when the amount of PM deposition in the insulating member decreases from an amount equal to or larger than the predetermined amount of PM deposition to an amount smaller than the predetermined amount of PM deposition. | 10-02-2014 |
20140305102 | CONTROL DEVICE FOR AN ELECTRICALLY HEATED CATALYST, AND ELECTRODE DETERIORATION DEGREE ESTIMATION DEVICE FOR AN ELECTRICALLY HEATED CATALYST - The present invention is intended to provide a technique which is capable of contributing to the suppression of the deterioration of surface electrodes in an electrically heated catalyst. The electrically heated catalyst according to the invention is provided with a heat generation element to heat a catalyst, and a pair of electrodes to supply electricity to the heat generation element. Each of the pair of electrodes has a surface electrode which spreads along a surface of the heat generation element, and the surface electrodes are arranged in opposition to each other with the heat generation element being sandwiched therebetween. Then, when a frequency becomes large in which a condition was satisfied in which a difference in temperature between two points located at a predetermined distance from each other on surfaces or in insides of the surface electrodes exceeds a predetermined temperature difference, an electric power supplied to the heat generation element is decreased, and an amount of heat supplied to the EHC by an exhaust gas is increased, as compared with when the frequency is small. | 10-16-2014 |
20140311134 | CONTROL DEVICE FOR ELECTRICALLY HEATED CATALYST - A purpose of the present invention is to prevent a PM-caused short circuit between a heating element and a case in an electrically heated catalyst. The electrically heated catalyst is provided in an exhaust gas passage of an internal combustion engine the air-fuel ratio of which is controlled at a ratio near a theoretical air-fuel ratio at an operation time. The electrically heated catalyst includes a heating element that generates heat through electric conduction, a case that stores the heating element therein, and an insulating member sandwiched between the heating element and the case. According to the present invention, the heating element is electrically conducted after the operation of the internal combustion engine is stopped. | 10-23-2014 |
20140352283 | CONTROL APPARATUS FOR AN INTERNAL COMBUSTION ENGINE - In a control apparatus for an internal combustion engine provided with an electrically heated catalyst which heats a catalyst having an ability to purify an exhaust gas by heat from a heat generation element which generates heat by the supply of electric power, provision is made for a decision unit that decides a restraint amount for energy inputted to the electrically heated catalyst through the exhaust gas so that a heat generation element internal temperature difference, which is a difference in temperature between predetermined portions in the heat generation element of the electrically heated catalyst at the time of cold starting of the internal combustion engine, falls within a predetermined temperature range; and a control unit that controls an operating state of the internal combustion engine according to the restraint amount for the input energy decided by the decision unit. With this construction, the occurrence of cracks inside the heat generation element of the electrically heated catalyst is suppressed. | 12-04-2014 |
Patent application number | Description | Published |
20130312718 | EXHAUST GAS RECIRCULATION APPARATUS FOR ENGINE - An EGR apparatus includes a EGR passage and an EGR valve provided in the EGR passage to regulate an EGR flow rate in the EGR passage. An ECU closes the EGR valve from an open state prior to start of deceleration of the engine based on engine rotation speed detected by a rotation speed sensor, accelerator opening degree detected by an accelerator sensor, and actual opening degree of the EGR valve. During deceleration of the engine, the ECU obtains a target opening degree of the EGR valve according to the separately detected engine rotation speed and accelerator opening degree from a target opening degree map and starts to close the EGR valve when a difference between an actual opening degree and the target opening degree of the EGR valve exceeds a predetermined value. | 11-28-2013 |
20130319383 | EXHAUST GAS RECIRCULATION APPARATUS FOR ENGINE - An EGR apparatus includes a EGR passage for allowing part of exhaust gas discharged from a combustion chamber of an engine to an exhaust passage to flow in an intake passage and recirculate back to the combustion chamber, and an EGR valve provided in the EGR passage to regulate an EGR passage in this passage. The EGR valve includes a valve seat, a valve element to be seatable on the valve seat, and a step motor for driving the valve element to open and close. An electronic control device controls the EGR valve to repeat opening and closing of the valve element between a closing position and a small opening position in order to remove foreign matters adhered to the valve seat or valve element during deceleration fuel cutoff of the engine. | 12-05-2013 |
20140020664 | CONTROL APPARATUS FOR ENGINE - An engine includes an injector, an ignition plug, a supercharger, an electronic throttle device, and an EGR apparatus. An EGR passage has an inlet connected to an exhaust passage downstream of a turbine and an outlet connected to the intake passage upstream from a compressor. A fresh-air introduction passage is arranged to introduce fresh air to a surge tank downstream from the electronic throttle device and a fresh-air control valve is provided to regulate a fresh air amount. When an ECU determines that the engine is under deceleration and under fuel supply, the ECU closes the electronic throttle device to a predetermined opening degree to scavenge EGR gas flowing from the EGR passage and remaining in the intake passage, opens a fresh-air control valve to a predetermined opening degree, and causes the ignition plug to retard an ignition timing. | 01-23-2014 |
20140020665 | EXHAUST GAS RECIRCULATION APPARATUS - An EGR apparatus includes an EGR passage and an EGR valve including a valve seat, valve element, and step motor. In a fully closed state of the EGR valve with the valve element seated on the valve seat, a front-side pressure of the valve element is detected by an air flow meter and a back-side pressure of the valve element is detected by an intake pressure sensor. An ECU calculates a differential pressure between the front-side pressure and the back-side pressure as a front-and-back differential pressure. When the front-and-back differential pressure is smaller than a predetermined reference value, the ECU allows opening of the EGR valve from the fully closed state and allows driving of the step motor. The ECU can also correct the reference value according value according to voltage of a battery that supplies electric power to the step motor. | 01-23-2014 |
20140137844 | EXHAUST GAS RECIRCULATION APPARATUS FOR AN ENGINE - An EGR apparatus for an engine includes an EGR passage, an EGR valve, an accelerator sensor, and an ECU. The ECU compares a change amount (accelerator operating speed) per unit of time of an accelerator opening degree to a predetermined first determination value. When it is determined that a request for deceleration operation or acceleration operation is made to an engine, the ECU issues a fully closing command to the EGR valve. When it is determined that the deceleration or acceleration operation request is continued, the ECU continues to issue the fully closing command. When the deceleration or acceleration operation request is removed and the accelerator opening degree is larger or smaller than a predetermined second determination value, the ECU releases the fully closing command. | 05-22-2014 |
20140183934 | BRAKE SYSTEM - A brake system includes: a first passage connected to a negative pressure chamber of a brake booster; a second passage branching from the first passage; an electric vacuum pump in the second passage; a first check valve for preventing inflow of a fluid from the intake system to the negative pressure chamber through the second passage; and a second check valve for preventing inflow of a fluid from the intake system to the negative pressure chamber through the first passage and inflow of a fluid from the intake system and a discharge outlet of a pump part to a suction inlet in the pump through the first passage, wherein a filter is provided between a discharge outlet of the pump and the intake system. | 07-03-2014 |
20140290239 | EXHAUST GAS RECIRCULATION APPARATUS FOR ENGINE - An EGR apparatus includes an EGR passage to allow part of exhaust gas discharged from a combustion chamber to flow in an intake passage and recirculate back to the combustion chamber and an EGR valve to regulate EGR gas in the EGR passage. The EGR valve includes a valve seat, a valve element, and a step motor. An ECU calculates a target correction value corresponding to an operating condition of an engine, cuts off energization to the step motor in order to hold the EGR valve at a predetermined opening degree during operation thereof, and then restarts energization to the step motor, calculates an energization cutoff correction value corresponding to an elapsed time from energization cutoff, and corrects the target correction value by the calculated energization cutoff correction value in order to control the EGR valve to the target opening degree. | 10-02-2014 |
20140298801 | EXHAUST GAS RECIRCULATION APPARATUS FOR ENGINE - An EGR apparatus includes an EGR passage to allow part of exhaust gas discharged from a combustion chamber to flow as EGR gas into an intake passage and recirculate back to the combustion chamber, and an EGR valve to regulate the EGR gas in the EGR passage. A control unit is arranged to calculate a target opening degree of the EGR valve according to an operating condition after start-up of an engine and a warm-up state of the engine comes to an operation start state of the EGR valve, and correct the calculated target opening degree according to the warm-up state to control the EGR valve based on the corrected target opening degree during a period from when the EGR valve comes to the operation start state to when warm-up of the EGR valve is completed. | 10-09-2014 |
20150040878 | FAILURE DETECTION DEVICE FOR BLOW-BY GAS RECIRCULATION APPARATUS OF ENGINE - An engine includes a EGR valve to regulate a EGR flow rate. A blow-by gas recirculation passage allows blow-by gas generated in the engine to flow in a surge tank to return to the engine. A PCV valve operates in response to negative pressure to regulate a blow-by gas flow rate in the recirculation passage. During deceleration fuel cutoff of the engine, an ECU holds a throttle valve at a predetermined slight opening degree and controls the EGR valve to be forcibly opened from a valve-closed state to change intake pressure (negative pressure) in the surge tank and determines whether or not the PCV valve is in sticking failure based on changes in intake amount detected by an air flow meter before and after the negative pressure changes. | 02-12-2015 |
20150075162 | EXHAUST GAS RECIRCULATION APPARATUS OF ENGINE WITH SUPERCHARGER - In an engine provided with a supercharger and a low pressure loop EGR apparatus, an ECU controls an EGR valve to fully close when a detected operating condition is a predetermined operating condition. An outlet of an EGR passage is located at a higher position than an inlet in a vertical direction to allow condensed water to flow downward from downstream to upstream of the EGR valve and flow downward through the EGR passage to an exhaust passage. When the EGR valve has to be controlled to fully close, the ECU forcibly opens the EGR valve when a predetermined discharge condition is established to discharge the condensed water from a downstream side of the EGR valve. | 03-19-2015 |
20150082790 | LOW-PRESSURE-LOOP EXHAUST RECIRCULATION APPARATUS OF ENGINE - A low-pressure-loop EGR apparatus of an engine includes an EGR passage to allow part of exhaust gas discharged from a combustion chamber to return as EGR gas to the combustion chamber, and an EGR valve to regulate a flow of EGR gas in the EGR passage. This passage has an inlet connected to an exhaust passage downstream of a turbine and an outlet connected to an intake passage upstream of a compressor. In the intake passage, an intake bypass passage is provided to connect an upstream portion and a downstream part from the compressor. An ABV is provided in the passage. To remove EGR gas remaining in the ABV, one end of a residual gas removal passage is connected to the intake passage downstream of a throttle valve and the other end of the same passage is connected to the ABV. | 03-26-2015 |