Suction controlled pump for HEUI systems

Internal-combustion engines – Charge forming device – Fuel injection system

Reexamination Certificate

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Details

C417S269000

Reexamination Certificate

active

06668801

ABSTRACT:

This invention relates generally to multiple piston pumps and more particularly to a high pressure pump used in a hydraulically actuated electronically controlled unit injector (HEUI) fuel control system. The invention is particularly applicable to and will be described with specific reference to a constant flow, fixed displacement pump and the integration of the fixed displacement pump into a HEUI system. However, those skilled in the art will appreciate that the invention may have broader application and may be integrated into other hydraulic pump driven systems, such as vehicular steering systems.
This invention also relates to a control system for a fixed displacement, constant flow pump and more particularly to a hydraulically actuated electronically controlled unit injector (HEUI) fuel control system using the fixed displacement constant flow pump. The invention is particularly applicable to and will be described with specific reference to a throttling valve controlling metering of low pressure fluid into a high pressure pump used in a HEUI flow control system. However, the invention has broader application and may be applied to other systems using a constant flow, fixed displacement pump requiring fast response over a wide range of operating conditions such as vehicular steering systems as mentioned above.
BACKGROUND
A) Conventional Systems
As is well known, a hydraulically-actuated electronically-controlled unit injector fuel system has a plurality of injectors, each of which, when actuated, meters a quantity of fuel into a combustion chamber in the cylinder head of the engine. Actuation of each injector is accomplished through valving of high pressure hydraulic fluid within the injector under the control of the vehicle's microprocessor based electronic control module (ECM).
Generally, sensors on the vehicle impart engine information to the ECM
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which develops actuator signals controlling a solenoid on the injector and the flow of hydraulic fluid to the injector. The solenoid actuates pressure balanced poppet valves such as shown in U.S. Pat. Nos. 5,191,867 and 5,515,829 (incorporated by reference herein). The poppet valves in the injector port high pressure fluid to an intensifier piston which causes injection of the fuel at very high pressures. The pressure at which the injector injects the fuel is a function of the hydraulic fluid flow supplied the injector by a high pressure pump while the timing of the injector is controlled by the solenoid. Both functions are controlled by the ECM to cause precise pulse metering of the fuel at desired air/fuel ratios to meet emission standards and achieve desired engine performance. Tightening emission standards and a demand for better engine performance have resulted in continued refinement of the control techniques for the injector. Generally the pump flow output has to be variable throughout the operating range of the engine. For example, one manufacturer may desire a constant pump flow throughout an operating engine speed range except at the higher operating engine speeds whereat the injectors are valving so quickly reduced pump flow may be desired even though more fuel is being injected by the injectors to the combustion chambers. Other manufacturers may desire to rapidly change pump flow at any given instant for emission control purposes. For example, the ECM may sense a step load change on the engine and impose a change in the fuel/air ratio to overcome the effects of a transient emission. Still further, the operating vehicular environment severely impacts oil viscosity affecting pump flow and injector performance. Viscosity of the hydraulic fluid is affected by several variables besides heat and is difficult to program into the ECM to fully account for its affect on system performance.
In a HEUI system, high pressure hydraulic actuating fluid is supplied to each injector by a high pressure pump in fluid communication with each injector through a manifold/rail fluid passage arrangement. The high pressure pump is charged by a low pressure pump. As noted in the '867 patent, the high pressure pump is either a fixed displacement, axial piston pump or alternatively a variable displacement, axial piston pump. If a fixed displacement pump is used, a rail pressure control valve is required to variably control the pressure in the manifold rail by bleeding a portion of the flow from the high pressure pump to a return line connected to the engine's sump. For example, the '867 patent mentions varying the output of the high pressure pump by the rail pressure control valve to pressures between 300 to 3,000 psi. A variable displacement pump can eliminate the rail control valve if the flow output of the variable pump can timely meet the response demands imposed by the HEUI system. The pumps under discussion are axial piston pumps in which the pump stroke (displacement) is determined by the angle of the swash plate. Variable displacement, axial piston pumps use various arrangements to change the swash plate angle and thus the piston stroke. Generally speaking, variable output, axial piston pumps do not have the reliability of a fixed displacement, axial piston pump and are more expensive. More significantly, the response time demands for pump output flow in a HEUI system is becoming increasingly quicker and a variable pump may be unable to change output flow within the time constraints of a HEUI system unless a rail pressure control valve is used.
A fixed displacement, high pressure pump is typically used in HEUI systems because of cost considerations. The pump is sized to match the system it is applied to. It is well known that the flow of a fixed displacement pump increases, generally linearly, with speed. Accordingly, the fixed displacement pump is sized to meet HEUI system demands at a minimal engine speed which is less than the normal operating speed ranges of the engine. Higher engine speeds produce excess pump flow which is dumped by the rail pressure control valve to return. The excess flow represents an unnecessary power or parasitic drain on the engine which the engine manufacturers have continuously tried to reduce.
For example, U.S. Pat. No. 5,957,111 shows a control scheme in which excess pump flow is passed to an idle injector but at a rate insufficient to actuate the injector. The system is stated to allow elimination of the rail pressure control valve and permit a more accurate sizing of the fixed displacement pump. However, the system does not avoid unnecessary parasitic engine power drains imposed by the pump. The pump must still be sized to produce a set flow sufficient to actuate the injectors at a low speed and that flow increases with pump speed.
B) The '167 Patent
The '167 patent discloses a fixed displacement, axial pump which in contrast to conventional axial piston pumps, eliminates the kidney shaped ports, rotates the cylinder, fixes the swash plate against rotation and establishes an orificed, suction slot inlet for each piston. The suction slot draws a constant volume of fluid into each pump cylinder once pump operating speed is reached to produce a constant flow output from the pump. The pump can therefore be designed to produce the maximum flow required by the HEUI system (i.e., at low operating speeds) which maximum does not increase when pump speed increases as in conventional fixed displacement pumps. The power otherwise expended to drive conventional fixed displacement pumps beyond their designed “maximum” is not required. Improved vehicle performance, better fuel consumption and decreased emissions results because the parasitic power drain is removed.
Additionally, and as noted above, there are times during the vehicle's operation where less flow from the required “maximum” is sufficient to operate the injectors and desired for better injector performance, enhanced fuel consumption, etc. In the prior applications, it was demonstrated that controlling the flow of fluid to the constant volume high pressure pump by a throttling valve could produce a constant pump outp

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