Claims
- 1. A fuel injection pump for internal combustion engines, comprising a fuel injection nozzle; a pump interior space which is filled with fuel and has supply pressure; a pump work space; a cam gear unit; a reciprocable pump plunger driven by said cam gear unit; a pressure conduit through which said pump plunger during its delivery stroke supplies fuel with a fuel injection pressure from said pump work space to said fuel injection nozzle; a supply duct through which said pump work space is connected with said pump interior space during a suction stroke of said pump plunger; a relief duct through which said pump work space is unloadable; a magnet valve controlling said relief duct so that a start of delivery of said pump plunger is determined by closing of said relief duct and an end of delivery of said pump plunger is determined by opening of said relief duct by said magnet valve; and a control device for controlling said magnet valve so that after the end of delivery a residual pressure in said pump work space is smaller than said fuel injection pressure and greater than said pressure in said pump interior space, said residual pressure resulting in force loading of said pump plunger onto said cam gear unit even after the end of delivery.
- 2. A fuel injection pump as defined in claim 1, wherein said magnet valve is connectable again with a control current after the end of delivery, which control current is of a magnitude such that an electromagnetic force generated by said control current is sufficient only for partial closing of said magnet valve.
- 3. A fuel injection pump as defined in claim 1, wherein said magnet valve is controlled after the end of delivery until close to a top dead center of said pump plunger stroke.
- 4. A method of operating a fuel injection pump, comprising the steps of supplying a fuel with a fuel injection pressure from a pump work space to a fuel injection nozzle through a pressure conduit during a delivery stroke of a pump plunger driven by a cam gear unit; connecting the pump work space during a suction stroke of the pump plunger through a supply duct with a pump interior space which is filled with fuel and has a supply pressure; unloading the pump work space through a relief duct controlled by a magnet valve; determining a start of delivery of a pump plunger by blocking the relief duct with the magnet valve and determining an end of delivery of the pump plunger by opening the relief duct with the magnet valve; and controlling the magnet valve by a control device so that after the end of a delivery a residual pressure in the pump work space is built up by reclosing said magnet valve after having been opened for determining said end of a delivery of fuel at fuel injection pressure to such a degree that said residual pressure is smaller than said fuel injection pressure and greater than said supply pressure in the pump interior space and able to load said pump plunger so that it is held onto said cam gear unit even after the end of delivery in counter-balance to inertia forces to which the pump plunger is subjected when being driven by said cam gear unit; and connecting the magnet valve again with a control current after the end of delivery which control current is of a magnitude such that the electromagnetic force generated by it is sufficient only for a partial closing of the magnet valve.
- 5. A method of operating a fuel injection pump, comprising the steps of supplying a fuel with a fuel injection pressure from a pump work space to a fuel injection nozzle through a pressure conduit during a delivery stroke of a pump plunger driven by a cam gear unit; connecting the pump work space during a suction stroke of the pump plunger through a supply duct with a pump interior space which is filled with fuel and has a supply pressure; unloading the pump work space through a relief duct controlled by a magnet valve; determining a start of delivery of a pump plunger by blocking the relief duct with the magnet valve and determining an end of delivery of the pump plunger by opening the relief duct with the magnet valve; controlling the magnet valve by a control device so that after the end of a delivery a residual pressure in the pump work space is built up by reclosing said magnet valve after having been opened for determining said end of a delivery of fuel at fuel injection pressure to such a degree that said residual pressure is smaller than said fuel injection pressure and greater than said supply pressure in the pump interior space and able to load said pump plunger so that it is held onto said cam gear unit even after the end of delivery in counter-balance to inertia forces to which the pump plunger is subjected when being driven by said cam gear unit; and controlling the magnet valve by a plurality of control pulses after the end of delivery, each of which causes at least partial closing of the magnet valve for its duration, said controlling being performed after the end of delivery until close to a top dead center of a pump plunger stroke.
Priority Claims (1)
Number |
Date |
Country |
Kind |
39 43 245.9 |
Dec 1989 |
DEX |
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Parent Case Info
This is a continuation of application Ser. No. 07/877,167, filed as PCT/DE90/00903 Nov. 24, 1990.
US Referenced Citations (4)
Foreign Referenced Citations (2)
Number |
Date |
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3436768 |
Apr 1986 |
DEX |
3507853 |
Sep 1986 |
DEX |
Continuations (1)
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Number |
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Parent |
877167 |
Jun 1992 |
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