Claims
- 1. A fuel-injection nozzle for injecting pressurized fuel into the combustion chamber of an internal combustion engine, comprising:
- a nozzle body having a guide hole, a fuel accumulation chamber to receive pressurized fuel, an injection hole communicating with the fuel accumulation chamber and opening to the combustion chamber, and a body seat provided between the fuel accumulation chamber and the injection hole, wherein the guide hole, fuel accumulation chamber, body seat and injection hole are coaxially arranged;
- a nozzle needle which is slidably fitted within the guide hole and which extends into the accumulation chamber, and which further has a needle seat at one end and is urged to make the needle seat contact the body seat to close the injection hole, and
- a needle pin coaxially projected from said end of the nozzle needle into the injection hole so that an annular gap is defined between the outer periphery of the needle pin and the inner periphery of the injection hole, the needle pin having a tapered portion progressively slenderized toward the combustion chamber for varying the rate of fuel injection through the annular gap when pressurized fuel in the fuel accumulation chamber urges the needle away from the body seat, and at least two flat surfaces on the outer periphery, the flat surfaces each at constant distance from a plane that is both parallel to the flat surface and contains the longitudinal axis of the needle pin; said flat surfaces extending from the needle seat of the nozzle needle along a portion of the needle pin for defining a series of wide and narrow sections around the annular gap; the maximum gap between at least one of the flat surfaces and the inner periphery of the injection hole being smaller than those between the other flat surfaces and the inner periphery of the injection hole;
- the wide sections formed by the flat surfaces and inner periphery of the injection hole being of such shape whereby injected fuel passing therethrough is caused to be made up of particles of diverse sizes.
- 2. A fuel-injection nozzle for injecting pressurized fuel into the combustion chamber of an internal combustion engine, comprising:
- a nozzle body having a guide hole, a fuel accumulation chamber to receive pressurized fuel, an injection hole communicating with the fuel accumulation chamber and opening to the combustion chamber, and a body seat provided between the fuel accumulation chamber and the injection hole, wherein the guide hole, fuel accumulation chamber, body seat and injection hole are coaxially arranged;
- a nozzle needle which is slidably fitted within the guide hole and which extends into the accumulation chamber, and which further has a needle seat at one end and is urged to make the needle seat contact the body seat to close the injection hole, and
- a needle pin coaxially projected from said end of the nozzle needle into the injection hole so that an annular gap is defined between the outer periphery of the needle pin and the inner periphery of the injection hole, the needle pin having a tapered portion progressively slenderized toward the combustion chamber for varying the rate of fuel injection through the annular gap when pressurized fuel in the fuel accumulation chamber urges the needle away from the body seat, and at least two flat surfaces on the outer periphery, the flat surfaces each at constant distance from a plane that is both parallel to the flat surface and contains the longitudinal axis of the needle pin; said flat surfaces extending from the needle seat of the nozzle needle along a portion of the needle pin for defining a series of wide and narrow sections around the annular gap; the maximum gap between any one of the flat surfaces and the inner periphery of the injection hole being different from the maximum gap between the adjacent flat surface and the inner periphery of the injection hole;
- the wide sections formed by the flat surfaces and inner periphery of the injection hole being of such shape whereby injected fuel passing therethrough is caused to be made up of particles of diverse sizes.
- 3. A fuel-injection nozzle according to claim 1, wherein the transition portion between each flat surface and an adjacent peripheral portion of the needle pin is a curved surface.
- 4. A fuel-injection nozzle according to claim 2, wherein the transition portion between each flat surface and an adjacent peripheral portion of the needle pin is a curved surface.
- 5. A fuel injection nozzle according to claim 1 wherein the needle pin includes at least three flat surfaces provided on the periphery.
- 6. A fuel injection nozzle according to claim 2 wherein the needle pin includes at least three flat surfaces provided on the periphery.
Priority Claims (1)
Number |
Date |
Country |
Kind |
58-6254 |
Jan 1983 |
JPX |
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Parent Case Info
This application is a continuation of application Ser. No. 567,010, filed Dec. 30, 1983, now abandoned.
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Number |
Name |
Date |
Kind |
4375274 |
Thoma et al. |
Mar 1983 |
|
4440348 |
Burgio di Aragona |
Apr 1984 |
|
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Continuations (1)
|
Number |
Date |
Country |
Parent |
567010 |
Dec 1983 |
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