EP1310667A2 - Fuel injection system for a combustion engine - Google Patents

Abstract

The device has a control piston (50) acting on an injection valve element (28) with a surface area subject to the pressure in a control pressure chamber (22) determined so that with a second control valve (70) closed, if the control pressure chamber is separated from a discharge chamber (24) the force on the control piston is adequate to close the fuel injection valve when the valve is only partly open but not if it is fully open.

Description

State of the art

The invention is based on one Fuel injection device for an internal combustion engine according to the preamble of claim 1.

Such a fuel injector is due to the EP 0 987 431 A2 is known. This Fuel injector has one High-pressure fuel pump and a connected to it Fuel injector for each cylinder of the Internal combustion engine on. The high-pressure fuel pump has one by the internal combustion engine in one stroke driven pump piston on which a pump work space limited. The fuel injector has one with the Pump work room connected pressure room and a Injection valve member through which at least one Injection opening is controlled by the in Pressure prevailing pressure against a closing force in Opening direction to release the at least one Injection opening is movable. It's a first electric actuated control valve provided by one Connection of the pump work room with a relief room is controlled. It is also a second electric actuated control valve provided by one Connection of a control pressure room with a relief room is controlled. The injection valve member is by the im Control pressure chamber prevailing pressure at least indirectly a closing direction and the control pressure chamber is connected to the pump work room. To a Fuel injection becomes the first control valve closed and the second control valve opened so that no high pressure can build up in the control pressure chamber and that Can open fuel injector. When open second control valve, however, flows out of the pump work space fuel from the control pressure chamber, so that for the Injection available amount of fuel amount of fuel delivered by the pump piston is reduced and also that for injection Available pressure is reduced. It follows that the efficiency of the fuel injector is not is optimal.

Advantages of the invention

The fuel injection device according to the invention with the Features according to claim 1 has the advantage that the second control valve for fuel injection at with maximum stroke open injector member closed can be so that no fuel quantity and Fuel pressure loss occurs during injection and thus the efficiency of the fuel injector is improved.

In the dependent claims are advantageous Refinements and developments of the invention Fuel injector specified. Training according to claim 2 allows in a simple manner that on the Sealing surface of the injection valve member, if only with a partial stroke is open due to the low Flow cross-section and the resulting Throttling effect only a lower force in the opening direction acts as if opened with maximum stroke Injector valve member if the throttle effect because of larger flow cross-section lower and thus the pressure and the force acting in the opening direction is greater. The Training according to claim 3 enables the control of a Pre-injection by the second control valve. The Training according to claim 4 enables the control of a Main injection through the second control valve. The Training according to claim 5 allows control of Pressure course during a main injection through the second control valve.

drawing

An embodiment of the invention is in the drawing shown and in the description below explained. 1 shows a Fuel injection device for an internal combustion engine in a schematic representation, Figure 2 one with II designated section of the fuel injector in an enlarged view and Figure 3 is a course of a Pressure at an injection port Fuel injector the Fuel injector.

Description of the embodiment

In Figures 1 and 2 is one Fuel injection device for an internal combustion engine shown a motor vehicle. The internal combustion engine is preferably a self-igniting internal combustion engine. The Fuel injector is preferably as so-called pump-nozzle unit designed and has for each cylinder of the internal combustion engine one High-pressure fuel pump 10 and a connected thereto Fuel injector 12 on which is a common Form unit. Alternatively, the Fuel injection device also as a so-called pump-line-nozzle system be trained in which the High pressure fuel pump and the fuel injection valve each cylinder arranged separately and over a line are connected. The High-pressure fuel pump 10 has a pump body 14 a cylinder bore 16 in which a pump piston 18 is tightly led, at least indirectly by one Cam 20 counter to a camshaft of the internal combustion engine the force of a return spring 19 in one stroke is driven. The pump piston 18 is limited in the Cylinder bore 16 a pump working space 22, in which Delivery stroke of the pump piston 18 fuel under high pressure is compressed. The pump work space 22 becomes fuel from a fuel tank 24 of the motor vehicle fed.

The fuel injection valve 12 has one with the Pump body 14 connected valve body 26, the can be formed in several parts, and in the one Injection valve member 28 in a bore 30 is guided longitudinally. The valve body 26 instructs its the combustion chamber of the cylinder of the internal combustion engine facing end region at least one, preferably several Injection openings 32 on. The injection valve member 28 has at its end area facing the combustion chamber for example, approximately conical sealing surface 34, which with one in the valve body 26 in its facing the combustion chamber End region trained valve seat 36 cooperates from after or after which the injection openings 32 discharge. in the Valve body 26 is between the injection valve member 28 and an annular space 38 toward the bore 30 toward the valve seat 36 available, the one facing away from the valve seat 36 End area through a radial expansion of the bore 30 in a pressure chamber 40 surrounding the injection valve member 28 transforms. The injection valve member 28 has the level of Pressure chamber 40 by reducing a cross section Pressure shoulder 42 on. At the end facing away from the combustion chamber Injector member 28 engages a biased one Closing spring 44 through which the injection valve member 28 is pressed towards the valve seat 36. The closing spring 44 is arranged in a spring chamber 46 of the valve body 26, the connects to the bore 30.

At the spring chamber 46 adjoins the bore 30 a further bore 48 in the opposite end in the valve body 26 in which a control piston 50 is tightly sealed with the injection valve member 28 is connected. The bore 48 forms a control pressure chamber 52 through the control piston 50 is limited as a movable wall. The control piston 50 has a cross-sectional area that is smaller than that Cross-sectional area of the injection valve member 28 in its in the bore 30 guided area. The control piston 50 is over a smaller diameter than this Piston rod 51 connected to the injection valve member 28. The control piston 50 can be made in one piece with the Injection valve member 28 is formed, however, for reasons assembly preferably as a separate part with the Injection valve member 28 connected.

From the pump work space 22 leads through the pump body 14 and the valve body 26 a channel 60 to the pressure chamber 40 of the Fuel injector 12. From the pump work room 22 or a channel 62 leads from the channel 60 to the control pressure chamber 52. In the control pressure chamber 52 also opens a channel 64, the forms a connection to a relief room than the at least indirectly the fuel tank 24 or another area can serve in which a low pressure prevails. From the pump work room 22 or from the channel 60 leads a connection 66 to a relief chamber 24, which by controlled a first electrically operated control valve 68 becomes. The control valve 68 can be as shown in Figure 1 be designed as a 2/2-way valve. The connection 64 of the Control pressure chamber 52 with the relief chamber 24 is through controlled a second electrically operated control valve 70, that can be designed as a 2/2-way valve. In the Connection 62 of the control pressure chamber 52 with the Pump working space 22 can be provided with a throttle point 63 be and in the connection of the control pressure chamber 52 with the Relief chamber 24 can be provided with a throttle point 71 his. The control valves 68, 70 can one have an electromagnetic actuator or a piezo actuator and are controlled by an electronic control device 72 driven.

If the fuel injector 12 is closed, so is the injection valve member 28 with its annular Sealing surface 34 on the valve seat 36. In this case it is only the area of the pressure shoulder 42 of the injector member 28 of the pressure prevailing in the pressure chamber 40 Opening direction 29 acted upon and further forces in Opening direction 29 act on injection valve member 28 Not. When the fuel injector 12 opens, it lifts whose injection valve member 28 with its sealing surface 34 from Valve seat 36, so that as shown in Figure 2 between the sealing surface 34 and the valve seat 36 an annular Flow cross section 37 is released. If that Injection valve member 28 with its sealing surface 34 from Valve seat 36 is raised, acts on the end face of the injector member 28, that is the annular one Sealing surface 34 and the residual surface enclosed by this of the injection valve member 28, also a pressure, the one Force in the opening direction 29 on the injection valve member 28 causes. When the injector member 28 with its Sealing surface 34 only a short distance from valve seat 36 is arranged and is therefore only open in a partial stroke, so only a small flow cross section 37 released through which the fuel flowing through is throttled, causing a drop in pressure. The The end face of the injection valve member 28 is then only with by throttling compared to that in pressure chamber 40 prevailing pressure reduced pressure in the opening direction applied. When the injector member 28 is executes the maximum opening stroke, its sealing surface is 34 arranged at a greater distance from the valve seat 36, so that a correspondingly larger flow cross section 37 is released. In the larger flow cross-section occurs a lower throttling effect, so that the end face of the injection valve member 28 correspondingly with a higher Pressure in the opening direction 29 is applied. at open fuel injection valve 12 thus acts whose injection valve member 28 in addition to that by the pressure prevailing in the pressure chamber 40 via the pressure shoulder 42 exerted force also by the on the face of the Injector valve member 28 acting pressure in Opening direction 29.

The pressure prevailing in the control pressure chamber 52 acted cross-sectional area of the control piston 50 dimensioned such that when the second is closed Control valve 70 when the control pressure chamber 52 from Relief chamber 24 is separated and the delivery stroke of Pump piston 18 in the pump work chamber 22 and thus also in the Control pressure chamber 52 high pressure builds up in addition to that Force of the closing spring 44 in the closing direction on the Injection valve member 28 results in force that is greater is the force acting on the injector member 28 in the opening direction 29 when the injection valve member 28 as explained above only with a partial stroke with his Sealing surface 34 is lifted off the valve seat 36. In this In this case, the fuel injection valve 12 is closed. If the injection valve member 28 with its maximum stroke its sealing surface 34 is lifted from the valve seat 36, so a force in results on the injection valve member 28 Opening direction 29, which is greater than that by the Closing spring 44 and through the on the cross-sectional area of the control piston 50 acting pressure in the control pressure chamber 52nd force acting on the injection valve member 28 Closing direction so that the fuel injection valve 12th not even when the second control valve 70 is closed can be closed provided the first control valve 68 closed and the pump workspace 22 from Relief chamber 24 is separated. The cross-sectional area of the Control piston 50 is preferably smaller than that Cross-sectional area of the injector member 28 that the Sum of the area of its pressure shoulder 42 and the area is from the front.

The function of Fuel injector explained. In Figure 4 the Course of the pressure p at the injection openings 32 of the Fuel injector 12 over time t during one Injection cycle shown. During the suction stroke of the pump piston 18 this fuel from the fuel tank 24 fed. The delivery stroke of the pump piston 18 begins the fuel injection with a pre-injection, wherein the first control valve 68 by the control device 72 is closed so that the pump working space 22 from Relief chamber 24 is separated. By the control device 72 also opens the second control valve 70 so that the control pressure chamber 52 is connected to the relief chamber 24 is. In this case, none can occur in the control pressure chamber 52 Build up high pressure, as this towards the relief chamber 24 is relieved. From the pump workspace 22, however, one can small amount of fuel via throttling points 63 and 71 flow to the relief chamber 24, so that in Pump work room 22 does not build up to full high pressure can, as it is with the second control valve 70 would build up. If the pressure in the pump work space 22 and thus in the pressure chamber 40 of the fuel injection valve 12 is great that through this over the pressure shoulder 42 on the injection valve member 28 pressure force is greater than the sum of the force of the closing spring 44 and that on the Control piston 50 by the one acting in the control pressure chamber 52 Residual pressure, that is how it moves Injection valve member 28 in the opening direction 29 and gives the at least one injection opening 32 free. The Injection valve member 28 opens only with a partial stroke, so that only a relatively low pressure on its end face acts in the opening direction 29. To end the Pre-injection is the second by the control device Control valve 70 closed, so that the control pressure chamber 52nd is separated from the relief chamber 24. The first control valve 68 remains in its closed position. in the Control pressure chamber 52 builds high pressure as in Pump working space 22, so that on the control piston 50th a large pressure force acts in the closing direction. As a result the partial stroke of the injection valve member 28 to this only a small force acts in the opening direction 29, the is less than the sum of the force of the closing spring 44 and the pressure force on the control piston 50 closes this Fuel injection valve 12. The pre-injection corresponds an injection phase designated I in FIG. 3.

For a subsequent main injection, the one in Figure 3 corresponds to the injection phase designated II, that is second control valve 70 by the control device 72 open. The fuel injection valve 12 then opens due to the reduced pressure force on the control piston 50 and the injector member 28 moves over its maximum opening stroke. If the injector member 28 with is opened its maximum opening stroke, so can by the Control device 72 closed the second control valve 70 are so that the control pressure chamber 52 from the relief chamber 24th is separated. Then it builds up in the control pressure chamber 52 High pressure as in the pump work room 22, but the Sum of the pressure force on the control piston 50 and the force the closing spring 44 generated force in the closing direction less than that due to the pressure shoulder 42 and the End face of the one opened with maximum stroke Injection valve member generated force in the opening direction 29, so that the fuel injection valve 12 remains open. As long as the second control valve 70 is still open, the fuel injection takes place at a reduced rate Pressure as a small amount of fuel from the Pump working space 22 via the open control valve 70 to Relief chamber 24 flows out. When the second control valve 70 is closed, so can not from the pump workspace 22 Fuel flow out more so that the fuel injection with a higher pressure, as shown in FIG. 4 is shown. The time when the second Control valve 70 closed by the control device 72 is, is preferably dependent on the operating parameters of the Internal combustion engine varies, in particular depending on the Rotational speed. It can be provided that at lower Speed the second control valve 70 through the Controller 72 closed early becomes and with increasing speed the second control valve 70 by the control device 72 at a later time is closed. As a result, at high speeds maximum fuel injection pressure limited become.

At the end of the main injection, the first one Control valve 68 through the control device 72 in its brought open switch position so that the Pump work chamber 22 connected to the relief chamber 24 and on the injection valve member 28 in the opening direction 29 only a small pressure force acts and that Fuel injection valve 12 due to the force of Closing spring 44 closes.

Claims (5)

Fuel injection device for an internal combustion engine with a high-pressure fuel pump (10) and a fuel injection valve (12) connected to it for each cylinder of the internal combustion engine, the high-pressure fuel pump (10) having a pump piston (18) driven by the internal combustion engine in a stroke movement, which has a pump working space (22 ) and fed to the fuel from a fuel reservoir (24), the fuel injection valve (12) having a pressure chamber (40) connected to the pump working chamber (22) and an injection valve member (28) through which at least one injection opening (32) is controlled which is acted upon by the pressure prevailing in the pressure chamber (40) in an opening direction (29) on a pressure surface (42) formed thereon and which can be moved against a closing force in the opening direction (29) to release the at least one injection opening (32), with a first control valve (68), by h a connection (66) of the pump work chamber (22) is controlled with a relief chamber (24) and with a second control valve (70), through which a connection (64) of a control pressure chamber (52) of the fuel injector is controlled with a relief chamber (24) The injection valve member (28) is acted upon at least indirectly by the pressure prevailing in the control pressure chamber (52) in a closing direction and the control pressure chamber (52) is connected to the pump work chamber (22), characterized in that an opening in the control pressure chamber (52) the injection valve member (28) acts on the control piston (50), which has an area acted upon by the pressure prevailing in the control pressure chamber (52), which is determined such that when the second control valve (70) is closed, when the control pressure chamber (52) from the relief chamber ( 24) is separated, the force acting on the control piston (50) with only a partial stroke of the injection valve member (28) fuel injection scratch valve (12) is sufficient to close the fuel injection valve (12) and, when the fuel injection valve (12) is open with the maximum stroke of the injection valve member (28), not sufficient to close the fuel injection valve (12). Fuel injection device according to Claim 1, characterized in that the injection valve member (28) has a sealing surface (34) with which it cooperates with a valve seat (36) to control the at least one injection opening (32), with the fuel injection valve (12) being open between the Sealing surface (34) and the valve seat (36) a flow cross-section (37) from the pressure chamber (40) to the at least one injection opening (32) is formed so that when the fuel injection valve (12) is open, an end face of the injection valve member (28) in addition to the pressure surface ( 42) is pressurized in the opening direction (29) and that in the flow cross section (37), depending on the stroke of the injection valve member (28), the fuel flowing through is throttled. Fuel injection device according to Claim 1 or 2, characterized in that, for a pre-injection of fuel by the control device (72), the first control valve (68) is closed and the second control valve (70) is opened, so that the pump working chamber (22) from the relief chamber (24 ) and the control pressure chamber (52) is connected to the relief chamber (24), that the fuel injection valve (12) opens during the pre-injection only with a partial stroke of the injection valve member (28), and that the pre-injection is ended by the second control valve (70 ) is closed by the control device (72), so that the control pressure chamber (52) is separated from the drainage chamber (24), the first control valve (68) remaining closed. Fuel injection device according to Claim 3, characterized in that for a main injection of fuel following the pre-injection, the second control valve (70) is opened by the control device (72), so that the control pressure chamber (52) is connected to the relief chamber (24), and in that after the start of the main injection, when the fuel injection valve (12) is opened with the maximum stroke of the injection valve member (28), the second control valve (70) is closed by the control device (72) so that the control pressure chamber (52) is separated from the relief chamber (24) is. Fuel injection device according to Claim 4, characterized in that the point in time at which the second control valve (70) is closed by the control device (72) after the start of the main injection is variably controlled as a function of operating parameters of the internal combustion engine, in particular as a function of its speed.

Images