Abstract: In a fuel injection apparatus 1, a fuel injection rate from which is controlled by a fuel pressure, a branch pipe 11 comprising a tubular member with the tip end closed is provided between a second pressure control valve 9 and a second pressure sensor 10. The branch pipe 11 extends in a direction along a flow direction of the fuel just before the branch pipe 11, and has a capacity not less than one fifth of that of a fuel flow path 22 between the second pressure control valve 9 and a fuel chamber 17. When a pressure difference in the pressure control valve 9 becomes larger and vibration of the fuel pressure is generated, the branch pipe 11 absorbs and reduces the vibration. As the vibration of the fuel pressure is reduced, a stable fuel injection rate is realized.

Abstract: The invention relates to a common rail for a common rail fuel injection system of an internal combustion engine, having a tubular base body whose interior communicates with a plurality of connections. To increase the high-pressure strength, the interior is formed by at least two substantially circular-cylindrical recesses or bores which communicate with one another and whose longitudinal axes are parallel to one another. The connections originate only at the jacket face of one of the substantially circular-cylindrical recesses.

Abstract: A pressure booster for increasing the injection pressure in direct-injection internal combustion engines with a plurality of cylinders, in particular diesel engines, having a booster piston which has a relatively large end face that is subjected to a relatively low pressure and a relatively small end face at which in the pumping stroke an elevated injection pressure prevails, wherein on the side remote from the relatively large end face, because of the difference in size between the two end faces of the booster piston, an idle volume results. The idle volume is in communication with a cantilevered spring reservoir disposed locally for each individual cylinder or centrally for all the cylinders of the engine.

Abstract: An object of the present invention is to provide an accumulator fuel injection system comprising a pressure increasing unit 7 and a pressure increasing common rail 6, in which leaked fuel is recirculated from a high pressure side to a low pressure side, and which is capable of reducing the amount of fuel that must be delivered under pressure by a low pressure pump 3. The focus of the present invention is to return high pressure leaked fuel to between the low pressure pump 3 and a high pressure pump 5.

Abstract: A fuel pressure detector and a pressure accumulator are disposed in a fuel distribution line, an engine control apparatus controlling activation of a fuel pump based on output from the fuel pressure detector. The fuel pump is activated at maximum capacity to fill the fuel distribution line with fuel at a controlled pressure controlled by a fuel pressure regulator, then stopped. In this state, fuel accumulated under pressure in the pressure accumulator replenishes the fuel distribution line until fuel pressure inside the fuel distribution line drops to a predetermined value due to fuel injection by fuel injection valves.

Abstract: An intake valve automatically opened and closed by pressure of a pressuring chamber is provided in a fuel intake passage, the intake valve is pushed to open by a plunger of an electromagnetic plunger mechanism, pulling-in operating timing of the plunger is controlled according to the operating condition of an internal combustion engine, and opening time of the intake valve during compression stroke of a pump is controlled to make discharge flow-rate of high pressure fuel variable.

Abstract: An injection system for an internal combustion engine comprises a valve arrangement (26), connected to an inlet (24) to a high pressure pump (8), which regulates the flow of fuel for lubricating and cooling the high pressure pump (8) and bleeds the injection system. The valve arrangement 926) comprises at least one displaceable actuator and a first and second throttle device (30, 32). The actuator (36) is regulated according to a pressure of the fuel flow between a feed supply pump (6) and the high pressure pump (8), such that a first connection to, the high pressure pump (8) is opened, by means of the first throttle device (30), or the feed (24) to the high pressure pump (8) is interrupted, or a second connection to the high pressure pump (8) is opened, by means of the second throttle device (32). The invention further relates to a method of bleeding and/or regulating said injection system.

Abstract: In a pressure accumulator vessel of a high pressure fuel supply device, a chamfered section is formed in a connection between an accumulation chamber and a corresponding fuel passage. An inner plated part, which includes a plating layer, is formed along a wall surface of the accumulation chamber, a wall surface of the fuel passage and a wall surface of the chamfered section. The pressure accumulator vessel further includes connecting portions and sealing portions. The connecting portion is formed to join with a fuel pipe. The sealing portion is formed adjacent to the connecting portion to fluid-tightly engage with the fuel pipe. Each unplated part is formed along a wall surface of the corresponding connecting portion and a wall surface of the corresponding sealing portion.

Abstract: A fuel injection system (1) for internal combustion engines has at least one stroke-controlled injector (10). A pressure booster (9) that has a movable piston (26) is connected between the at least one injector (10) and a high-pressure working medium source (5). The movable piston (26) divides a primary chamber (13), which can be connected to the high-pressure working medium source (5), from a pressure chamber (8) that communicates with the at least one injector (10) and is filled with fuel. The pressure booster (9) generates a first fuel system pressure in the injector (10), which is used for the injection. The fuel injection system (1) has means for furnishing a further, second fuel system pressure, and these means can be used for injection without activating the pressure booster (10).

Abstract: A fuel pump comprising a plunger member reciprocable within a plunger bore, wherein the plunger member is cooperable with a drive arrangement to cause inward movement of the plunger member within the plunger bore to increase fuel pressure therein. The pump comprises an accumulator for fuel, and a valve arrangement controlling communication between the plunger bore and the accumulator to permit fuel under pressure to flow into the accumulator. The pumping plunger is moved in an outward direction under the action of the fuel pressure within the accumulator. The invention also relates to a fuel injection system comprising the fuel pump.

Abstract: In an injection system for an internal combustion engine, having one fuel pump per engine cylinder to be supplied of the engine, the pump being controlled electronically, having an injection nozzle that is provided with a nozzle needle, and having a connecting line between the fuel pump and the injection nozzle, it is an object for the injection course to be freely selectable. To this end, the injection nozzle is provided with an electronically controlled valve, which is capable of controlling the opening of the nozzle needle.

Abstract: A fuel injection system having a high-pressure source and an injection valve having a pressure chamber communicating with the high-pressure source, and a valve member controlling at least one injection opening when acted upon by the pressure in the pressure chamber in an opening direction counter to a closing force. A control piston movable with the valve member in the closing direction defines a control pressure chamber which communicates with the high-pressure source and which has a communication controlled by an electrically actuated valve, with a relief chamber. The control valve is opened for fuel injection, so that the control pressure chamber communicates with the relief chamber. The valve member and the control piston move in the opening direction when the control valve is opened, and a limitation in the opening motion of the injection valve member and of the control piston is effected only by a pressure increase in the control pressure chamber from closure of the control valve.

Abstract: In a fuel injection system for an internal combustion engine, in which the fuel pumped by means of a high-pressure pump can be injected into the combustion chamber of the engine at at least two different, high fuel pressure via injectors, between the high-pressure pump and the injectors, at least one central pressure booster unit for all the injectors is provided. The pressure booster unit is triggerable in a targeted way as need, and as a result the fuel which is at the higher pressure can be better regulated in quantity, and the losses from friction can be reduced accordingly as well.

Abstract: A fuel rail is provided for delivering fuel to a plurality of fuel injectors for a reciprocating piston internal combustion engine. The fuel rail includes a sealed housing having an inlet for receiving fuel, the housing having at least first and second injector outlets for delivering fuel to fuel injectors. The fuel rail also includes first and second filling chambers formed within said housing fluidly connected with respective first and second injector outlets. A reserve pump chamber is provided which is fluidly connected with each said filling chamber, the reserve pump chamber has a volume approximately at least equal to or greater than a volume of one of the filling chambers. The reserve pump chamber dampens pressure pulsations generated in one of the filling chambers from progression to another filling chamber.

Abstract: The invention relates to a high-pressure fuel reservoir for a common rail fuel injection system of an internal combustion engine, having a plurality of connection openings, in particular connection openings for delivering and removing fuel and connection openings for sensors and valves and so forth. To increase the strength of the high-pressure fuel reservoir, the high-pressure fuel reservoir is equipped with a pulsation damping device.

Abstract: The invention relates to a device for injecting fuel into the combustion chambers of an internal combustion engine, with a pump (2), which supplies highly pressurized fuel to a high-pressure accumulation chamber (3). Starting from this high-pressure accumulation chamber (3), a high-pressure supply line leads to an injector (5), which contains a metering valve (7) that acts on an injection nozzle (24) with fuel. The metering valve (7) is associated with a damping throttle (26), which is connected to a part of the high-pressure region.

Abstract: In a fuel injection system for an internal combustion engine, having at least two different, high system pressures, in which a first pressure reservoir, supplied by a high-pressure pump, is provided for the higher system pressure, and a second pressure reservoir is provided for the lower system pressure, and at least the first pressure reservoir can be made to communicate by line for a fuel injection with the injectors of the individual cylinders of the engine, the pressure level of the high-pressure pump is greater than the higher system pressure, and the first pressure reservoir has an overpressure valve leading to the second pressure reservoir, and the second pressure reservoir has an overpressure valve leading to the fuel tank.

Abstract: A fuel injection system with a fuel injection valve (15) and a control valve (50), which control valve (50) has a control valve member (54) that can move longitudinally in a control valve bore (52). The control valve member (54) is provided with a control valve sealing surface (55), which cooperates with a control valve seat (56) and thereby controls the connection between a first pressure chamber (57) and a second pressure chamber (58), where the first pressure chamber (57) is connected to a high-pressure accumulation chamber (10). A bore (30) is embodied in a valve body (25) and contains a piston-shaped valve needle (32) whose end oriented toward the combustion chamber controls the opening of at least one injection opening (38) by virtue of the fact that it executes a longitudinal movement due to the impingement of the pressure in a pressure chamber (31); the pressure chamber (31) is connected to the second pressure chamber (58) by means of a supply conduit (28).

Abstract: Inclusion of a direct control needle valve in fuel injectors can allow for independent control of injection pressure and timing. Engineers have learned that it is desirable to position the control valve assembly in close proximity to the needle valve member to improve response time. However, by placing the control valve assembly in a central portion of the fuel injector, at least one fluid passage must often be routed through the electrical actuator included in the valve assembly. The present invention seeks to address this problem by providing a direct control valve assembly for a fuel injector that directs fluid around the electrical actuator without increasing the size of the fuel injector. Thus, the present invention includes an electrical actuator having an actuator centerline that is oriented at an angle, which is preferably perpendicular, with respect to a centerline of the fuel injector.

Abstract: A fuel injection apparatus (1) includes a shared pressure reservoir (6), an injector (8), a pressure intensifier, and valves for controlling the injection process and the pressure intensification. A modular design is produced by means of a pressure intensifier module (16), and a valve module (17). This reduces costs and increases flexibility in the manufacture of fuel injection apparatuses.

Abstract: A fuel injection system, having a fuel injection valve (15) and a control valve (50), which control valve (50) has a control valve member (54) that is longitudinally displaceable in a control valve bore (52). A control valve sealing face (55) is embodied on the control valve member (54); it cooperates with a control valve seat (56) and thus controls the communication between a first pressure space (57) and a second pressure space (58); the first pressure space (57) communicates with a high-pressure collection chamber (10). In a valve body (25), a bore (30) is embodied in which a pistonlike valve needle (32), with its end toward the combustion chamber, controls the opening of at least one injection opening (38) by executing a longitudinal motion in response to the pressure in a pressure chamber (31); the pressure chamber (31) communicates with the second pressure space (58) via an inlet conduit (28).

Abstract: A pump control valve contained in a high-pressure fuel pump is closed when an engine is stopped, so that the pressure of a common rail is prevented from becoming too high when the engine speed NE is not less than a predetermined value &agr;. The pump control valve is opened when the engine speed NE is decreased to a predetermined value &agr;. Consequently, a predetermined amount of fuel is stored in the pump because the high-pressure fuel pump sucks fuel but does not deliver the fuel to the common rail. Therefore, a lack of fuel being delivered at early stage of startup is prevented because the fuel stored in the pump can be delivered to the common rail in a subsequent startup of the engine. Thus, the pressure of fuel necessary to start the engine can be obtained in a short time, and the time for startup can be decreased.

Abstract: In an injection system with pressure intensification with a simple and space-saving design, control means are provided permitting a large range fuel injection pressure control, which also permits rapid adaptation of the fuel injection pressure to the various engine operating conditions.

Abstract: The fuel injection apparatus has a high-pressure fuel pump and a fuel injection valve connected to it for each cylinder of the engine. The high-pressure fuel pump has a pump piston, which is driven in a stroke motion by the engine and defines a pump working chamber, which is connected by means of a line to a pressure chamber of the fuel injection valve that is disposed separate from the high-pressure fuel pump in the engine and has an injection valve member, which is used to control at least one injection opening and can be moved by the pressure prevailing in the pressure chamber in an opening direction, counter to a closing force, in order to unblock the at least one injection opening. An electrically actuated control valve is provided in the fuel injection valve and at least indirectly controls a connection of the pump working chamber to a relief chamber, which can store pressurized fuel diverted by the control valve when this valve is open.

Abstract: A high pressure collecting chamber for receiving a fuel supply under pressure, has a piston-shaped pressure multiplication element; a line to a nozzle holder combination such that via the pressure multiplication element fuel with high pressure is available in the line; a pre-stressing element for the pressure multiplication element; a control chamber through which the pressure multiplication element is integrated, wherein the pre-stressed pressure multiplication element which is actuated via the control chamber is integrated in the high pressure collecting chamber.

Abstract: Inclusion of a direct control needle valve in fuel injectors can allow for independent control of injection pressure and timing. Engineers have learned that it is desirable to position the control valve assembly in close proximity to the needle valve member to improve response time. However, by placing the control valve assembly in a central portion of the fuel injector, at least one fluid passage must often be routed through the electrical actuator included in the valve assembly. The present invention seeks to address this problem by providing a direct control valve assembly for a fuel injector that directs fluid around the electrical actuator without increasing the size of the fuel injector. Thus, the present invention includes an electrical actuator having an actuator centerline that is oriented at an angle, which is preferably perpendicular, with respect to a centerline of the fuel injector.

Abstract: Fuel is conveyed by at least one high-pressure pump from a low-pressure region into a high-pressure region including a pressure-accumulator line consisting of at least two separate accumulator units connected to one another by means of feed lines, and to fuel injectors for the cylinders. The accumulator units each have an accumulator volume for serving at least two cylinders, and accumulator covers provided on both end faces. All the functional units are integrated into these accumulator covers in terms of fuel delivery and transfer, and at least one separate pump accumulator is arranged in the high-pressure region between the high-pressure pump and the assembled pressure-accumulator line. The pump accumulator is connected to at least one accumulator cover of an accumulator unit of the pressure-accumulator line for fuel conveyance and is capable of being acted upon by at least one high-pressure pump.

Abstract: This invention provides a common rail fuel injection device, which ensures the functions of pilot injection even at high fuel pressure in the common rails, by changing the injection end delay period of the pilot injection in accordance with the fuel pressure in the common rail. The period displacement &Dgr;SOCp to be applied to the pulse start time of the pilot injection command pulse CPp, with respect to the top dead centre T7, is set to a timing that is advanced by the interval period Tint, pilot injection end delay period Tdpe and injection pulse width Pwp for pilot injection, with respect to the main injection start time T6.

Abstract: The invention relates to a common rail injector for injecting fuel in a common rail injection system of an internal combustion engine, in particular a large diesel engine, having an injector housing which communicates with a central high-pressure reservoir and in which a nozzle needle can move axially counter to the initial stress of a nozzle spring which is contained in a nozzle spring chamber, in order to adjust the injection onset and the injection quantity as a function of the position of a 3/2-way valve. In order to improve the damping behavior in a common rail injection system, an injector pressure reservoir is integrated into the injector housing and communicates with the central high-pressure reservoir independent of the position of the 3/2-way valve.

Abstract: The invention is directed to a high-pressure fuel storage device of a common rail fuel injection system supplying fuel to an internal combustion engine. The high-pressure fuel storage device includes a tubular base body (1), whose delimiting wall (19) encloses a lengthwise cavity (2). Several connections (8, 9, 10) for connecting high-pressure fuel lines are provided on tubular base body (1). The connections (8, 9, 10) for high-pressure fuel lines are situated decoupled from the tubular base body (1).

Abstract: An excessive volume of fuel discharged by a high-pressure supply pump to a common rail due to an opened state abnormality of an inlet metering valve of the pump may result in an abnormal increase in common rail pressure. In the event of such an abnormal increase, a target idle revolution speed is newly set at an abnormal value greater than a normal value as a measure taken to increase an idle revolution speed. Thus, a pressure limiter, which has been once put in an opened valve state by an actual common rail pressure higher than a limit setting pressure, can be prevented from again entering a closed valve state. As a result, it is possible to eliminate idle performance instability caused by repetition of opened valve and closed valve states of the pressure limiter and, hence, assure reliability of the pressure limiter.

Abstract: A fuel control system for an internal combustion engine including injected fuel quantity estimation includes a fuel pump responsive to a fuel pump command to supply fuel to a fuel collection unit. A pressure sensor is provided for producing a pressure signal indicative of the pressure of fuel within the collection unit throughout a fuel injection event, and an engine position sensor is provided for producing an engine position signal indicative of a crank angle of the engine relative to a reference crank angle. A control circuit includes means responsive to the pressure signal and a desired fueling value for producing an initial fueling command, and further includes a fuel quantity estimation block responsive to the pressure signal, the engine position signal and a final fueling command to produce a fuel quantity estimation value.

Abstract: An injection module assembly includes a fuel rail defining a passageway through which a fuel can flow, and a plurality of fuel injectors for delivering the fuel in the passageway to a respective plurality of combustion chambers in an internal combustion engine. The fuel injectors are coupled to the fuel rail such that an interface between the fuel rail and each fuel injector is substantially sealed to substantially prevent leakage of both liquid fuel and hydrocarbon emissions from the interface. The injection module assembly further includes an electrical connector coupled to the fuel rail and to each of the injectors for providing electrical power to each injector, and an overmolding covering at least a portion of the fuel rail, at least a portion of the electrical connector, and at least a portion of each fuel injector.

Abstract: In a common rail system comprised of a first accumulator storing high-pressure fuel and a second accumulator storing low-pressure fuel, additional fuel is injected when a fuel pressure in a fuel passage or in the second accumulator (low inlet pressure of an injector) is reduced to a low pressure approximate to the pressure of the low-pressure fuel stored in the second accumulator after a switching valve is operated for disconnection from the fuel passage (switching valve drive signal OFF) at a point in time when a main injection control device finishes the injection of fuel (injector drive signal OFF) or after the main injection control device finishes the injection of fuel. This keeps the fuel pressure as low as possible during post injection to prevent the fuel from adhering to the wall surfaces of cylinder liners.

Abstract: A high-pressure fuel accumulator for a common-rail fuel injection system for internal combustion engines is provided, which includes a base body made of a base material having at least one connecting piece. In this context, the base body includes a longitudinal bore forming an interior chamber, and the at least one connecting piece includes at least one transverse bore opening out into the longitudinal bore. The interior chamber of base body includes a high-strength filler material in the region of the at least one transverse bore.

Abstract: A method and system for injecting fuel in at least two different high fuel pressures via injectors into a combustion chamber of an internal combustion engine. The higher fuel pressure being stored in a central pressure reservoir, the lower fuel pressure is generated individually locally for each injector, at all times during the injection event by diversion of the higher fuel pressure. The diversion being activatable or deactivatable via a multi-way valve. To that end, a corresponding fuel injection system with a central pressure reservoir for storing the higher fuel pressure has a local diversion unit for each injector by means of which the lower fuel pressure can be generated dissipatively from the higher fuel pressure, and the local diversion unit has a multi-way valve for activating and deactivating the diversion, respectively. In this way, an improved metering of the lower fuel pressure can be achieved.

Abstract: A fuel injection system includes a pressure storage chamber and one injector assigned to each cylinder, which injector can be connected to the pressure storage chamber via a pressure line that includes a metering valve. Using a single 2/2-way valve as a metering valve per cylinder makes for a more-economical manufacture of a fuel system, especially for small engines. The fuel injection is done under pressure control.

Abstract: In a fuel injection system for an internal combustion engine, having a fuel high-pressure reservoir, from which an injection line for the fuel to be injected and a drive line for fuel branch off, which fuel is used as a working medium, the fuel is intended to be utilized, in a simple way, in order to furnish a working medium at high pressure that can be used for additional functions. To that end, at least one converter is provided, which is connected to the drive line and in which a volumetric flow of the fuel, which is under pressure, is converted into a volumetric fuel of a working medium which is under pressure.

Abstract: A high-pressure fuel accumulator for a fuel injection system of an internal combustion engine, in particular for a common-rail fuel injection system, has an elongated base body having an accumulator space for high-pressure fuel extending in the longitudinal direction of the base body, communicating with multiple connecting bores. A relief space connected to a low-pressure connection is provided in the base body, with a drain channel from the accumulator space opening into it. A pressure regulating valve is installed in the base body for opening and closing the drain channel.

Abstract: A hydraulically activated fuel injection system uses a common rail that is maintained at relatively high pressure by a pump when the engine is running. During start-up, a volume reducer is used to pressurize the common rail until the pump can take over. A member of the volume reducer protrudes through one end of the common rail and is movable into and out of the common rail. When the ignition is activated, the member advances into the common rail causing the fluid volume to decrease and the pressure within the hydraulic system to increase, thereby allowing activation of the fuel injectors and starting the engine before the system pump is able to supply high pressure fluid to the common rail. Once the pump is able to sustain system pressure to the desired level, the member can retract to its original position.

Abstract: A self-regulating direct injection fuel delivery system for a motor vehicle includes a common rail having an accumulator including a relatively large fuel volume. The accumulator is connected in fluid communication with a distributor having a relatively small fuel volume and at least one fuel injector nozzle is connected in direct fluid communication with the distributor. A high-pressure pump for delivering fuel to the common rail is provided and a flow control device is interposed between the pump and the common rail for selectively delivering fuel to one of the accumulator and the distributor and then the other of the accumulator and the distributor.

Abstract: In a fuel injection system for an internal combustion engine, in which fuel can be injected at at least two differently high fuel pressures via injectors into the combustion chamber of the engine, having a central distributor device for distributing the fuel to the individual injectors and having a central pressure reservoir for the lower fuel pressure, one valve unit for switchover between the two fuel pressures is provided locally for each injector individually. Furthermore, the central distributor device for the higher fuel pressure is disposed parallel to the central pressure reservoir for the lower fuel pressure. To enlarge the injection window for the pre-injection and the post-injection, the lower fuel pressure is metered from the central pressure reservoir, without going by way of the distributor device.

Abstract: In a fuel injection system for an internal combustion engine, in which fuel can be injected at least two different, high fuel pressures, via injectors, into the combustion chamber of the engine, having a central first pressure reservoir for the higher fuel pressure and a central second pressure reservoir, supplied from the first pressure reservoir, in which by regulation of its fuel delivery, the lower fuel pressure is maintained, and having a valve unit for switchover between the higher and the lower fuel, the valve unit for switchover between the higher and the lower fuel is provided locally for each injector. With this injection system, improved metering of the lower fuel pressure is possible.

Abstract: There is disclosed a pressure accumulating distribution type fuel injection pump of a low pollution diesel engine which provides a low fuel economy and which can correspond to the regulation of exhaust emission. The pressure accumulating distribution type fuel injection pump (1) is provided for supplying respective cylinders with fuel that is high-pressured and accumulated in pressure accumulation chambers (31) through a distribution shaft (9). In the fuel injection pump, function members constituting a high-pressure path, such as a plunger (7), an injection control valve (26) for fuel injection control, the pressure accumulation chambers (31), the distribution shaft (9) or the like are arranged in a hydraulic base Hb. One plunger portion is provided for pressure-supplying fuel to the pressure accumulation chambers (31).

Abstract: The invention relates to a flat tubular damper for damping fluid pressure pulsations in fluid lines, in particular fuel pressure pulsations in fuel supply lines of motor vehicles, having at least one elongated chamber whose cross section is small in comparison to its longitudinal span and at least a part of whose chamber wall, being operationally connected with the fluid, can be elastically deformed by the fluid pressure pulsations. The invention provides that the cross section of the chamber changes continuously or discretely along its longitudinal span.

Abstract: The present invention provides a system for automatically shutting down a vehicle. The system includes a vehicle system for performing a vehicle function such as brakes for performing braking of the vehicle. A vehicle control system controls the vehicle system by controlling valve switches or actuators to manipulate the vehicle system. A portable handheld computing device includes a program defining a vehicle shutdown sequence. Preferably, the portable handheld computing device is what is known as a personal digital assistant (PDA), such as a Handspring® or Palmpilot®. A cradle removably receives the portable handheld computing device to connect the portable handheld computing device with the vehicle control system, such as through the vehicle databus. A switch enables the portable handheld computing device to command the vehicle control system to perform the vehicle shutdown sequence.

Abstract: A fuel injection system has one or more unit fuel injectors or pump-line-nozzle system, corresponding in number to the number of cylinders, for compressing the fuel and a hydraulic pressure booster unit. With the aid of the unit fuel injector and the pressure booster unit, a fuel injection can be performed with great precision over a wide rpm range.

Abstract: A method of operating an internal combustion engine is provided for stabilizing the fuel pressure in a pressure accumulator, for example, when the quantity of fuel withdrawn from the pressure accumulator for injection rapidly changes.

Abstract: A fuel injection system having at least two different, high system pressures for an internal combustion engine, includes a first central pressure reservoir for the lower system pressure and includes a second central pressure reservoir, supplied from a high-pressure pump, for the higher system pressure, both pressure reservoirs being connectable by line to the injector of each cylinder, and to increase the efficiency, a two-stage high-pressure pump, by whose lower stage the first pressure reservoir and by whose higher stage the second pressure reservoir are supplied.

Abstract: Described is an apparatus for rapid pressure buildup in a motor vehicle reservoir-type injection system (common rail) supplied with fuel by a high-pressure pump, the apparatus including a piston, which defines a pressure chamber that can be enlarged counter to the force of a spring element prestressed counter to the piston, which pressure chamber communicates with the feed pump and with the device supplied with the pressure medium. A locking device acting on the piston is provided, by which the piston can be locked in a locking position, assumed as a result of the pressure, built up in the pressure chamber by the feed pump, counter to the prestressing of the spring element and can be untensed after unlocking into a position that reduces the size of the pressure chamber. By the relaxation of the spring, the system pressure is built up suddenly.