US1833080A - Fuel injection or spray valve - Google Patents

Description

Nov. 24%, 1931.c 5 KENWORTHY 1,833,980

FUEL INJECTION OR SPRAY VALVE Filed Jan. 14, 1951 -/l? IIIV C 5.KNwoR,THY. 20 22 INVENTOR A TTORNEY Patented Nov. 24, 1931 UNITED STATES PATENT OFFICE CLARENCE S. KENWORTHY, OF BUFFALO, NEW YORK, ASSIGNOB TO WOBTHINGTON PUMP AND MACHINERY CORPORATION, OF NEW YORK, N. Y A CORPORATION OI VIRGINIA FUEL INJECTION OR SPRAY VALVE Application filed Tannery, 1931. Serial No. 508,577.

This invention relates to fuel injection or spray valves for use in injecting fuel into internal combustion engines of the solld injection Diesel type and an object of the invention is to provide a spray valve which will produce sufiicient variation in the rate of fuel injection into the cylinder to take care of the change in piston speed during combustion.

A further object of the present invention is to provide a spray or fuel injection valve which allows of use of comparatively low fuel pump pressures and of varying sprayer area by means of which the injection of the fuel oil which is burned when the piston-is near top centre, is comparatively slow and the oil injected later very fast or at an increased speed. This tends to give a constant pressure combustion line with perfect combustion and eliminates the necessity of high combustion pressures to obtain good fuel consumption.

With these and other objects in view, as may appear from the accompanying specification, the invention consists of various features of construction and combination of parts, which will be first described in connection with the accompanying drawings, showing spray valves of the preferred form embodying the invention, and the features forming the invention will be specifically pointed out in the claims.

In the drawings Fig. 1 is a longitudinal section through the improved spray valve.

Fig. 2 is an enlarged longitudinal section through the tip or nozzle end of the valve.

Fig. 3 is a cross section through the nozzle taken on the line 3-3 of Fig. 2.

Fig. 4 is a fragmentary section through the nozzle end of a modified form of the valve structure and Fig. 5 is a cross section taken on the line- 1 5-5 of Fig. 4.

I which thestem 3 extends. The upper end of thestem 3 extends into the chamber 4 in b of a sleeve 9 which threads on the body 1 and I has a shoulder 10 which clamps against theshoulder 11 of the tip 8. The tip 8 is provided with a longitudinally extendingpas sage 12 which communicates at its upper end with anannular trou h 13. Theannular trough 13 receives the uel oil which is to be injected into the engine (not shown) from theoil passage 14 formed in the body 1. The fuel oil leaves thepassage 12 and enters thechamber 15 in the lower end of the tip 8.

When the fuel pump (not shown) which supplies the fuel oil to the spray valve and from the spray valve into t e engine (not shown) starts on its discharge stroke, it builds up-pressure in the fuel oil system and when the pressure is suflicient, it lifts the valve 6 off theseat 16 by means of the oilunder pressure acting against theface 17 on the valve 6, overcoming the tension of the spring v5. When the valve is lifted off theseat 16 the injection of fuel immediately occurs through the openings orbores 19, providing injectlon of sufficient fuel oil into the engine, when the piston is near top centre and insuring the burning or combustion of substantially all of the fuel oil injected at such time.

As the fuel oil pump still further increases the pressure in the system, the valve 6 lifts further and moves thespindle 20 still further upwardly or outwardly until the grooves orslots 21 which are formed in the outer surface of thespindle 20 at properly spaced points, are brought into communication with thechamber 15, thus opening communication between this chamber and the fueloil injection openings 22 which are formed in the tip of thenozzle 23.

When this takes place, the full fuel pump pressure then acts on both sets of nozzles orinjection openings 19 and 22, injecting the oil at a very much faster rate with a small dle at 24 has a lap fit preventingthe passage of oil to the nozzle orinjection opemngs 22 until the spindle has suflicient lift to bring the upper ends of thegrooves 21 into communication with thechamber 15. The grooves are used so that the small part of thespindle 20 will never pull out of its guiding bore in thenozzle 23.

In Figs. 4 and 5 of the drawings, a slight modification of the valve structure is shown. In this modified form, the spindle 20' is much shorter than thespindle 20 and in fact is of substantially the same length as thesection 24 of thespindle 20, the

'grooves 21 being eliminated so that upon the increasing of the fuel pump'pressure after the valve 6 has been lifted off, thevalve seat 16 will, by acting upon thesurfaces 24 and 16A lift the valve 6 sufficiently to move thespindle 20 out of the bore 20A in thenozzle 23 so as to permit the fuel oil to pass out of theinjection openings 22.

It will be understood that the invention is not to be limited to the specific construction or arrangement of parts shown but that they may be widely modified within the invention defined by the claims' What is claimed is 1. In a fuel injection valve for internal combustion engines, a nozzle provided with spaced fuel injection openings, and means operable by pressure of fuel in the injection valve for successively opening said inglection Openings for fuel passage therethroug 2. In a fuel injection valve for internal combustion engines, a nozzle provided with spaced fuel injection openings, and means for normally closing said openings, said means operable tofirst open one of said openings and to open the other of said openings at a predetermined interval thereafter.

3. In a fuel injection valve for internal combustion engines, a nozzle provided with' a plurality of spaced sets of fuel injection openings and a valve controlling the opening and closing of said injection openings, said valve movable to first permit injection of oil from the injection valve at a relatively slow.

speed and later at a relatively fast speed.

4. In a fuel injection valve for internal combust on engines, a nozzle provided with a plurality of spaced sets of fuel injection openings, a valve controlling the opening and combustion engines, a nozzle provided with a plurality of spaced sets of fuel injection openings, a valve controlling the opening and closing of-said openings, said valve movable to first 0 en one set of the fuel injection openings, an a spindle on said valve for preventing passage of fuel to second set of openings when the first set is first opened.

7 In a fuel injection valve for internal combustion engines, a nozzle provided with a plurality of spaced sets of fuel injection openings, a valve controlling the opening and closing of said openings, said valve movable to first open one set of the fuel injection openings, and a spindle on said valve for preventing passage of fuel to second set of openings when the first set is first opened, said valve movable to successively open said second set of openings.

In testimony whereof I afiix my signature.

CLARENCE S. KENWORTHY.

closing of said injection opening, said valve movable under various degrees of pressure of fuel oil for successively opening said spaced sets of fuel injection openings.

5. In a fuel injection valve for internal combustion eng1nes,.a nozzle provided with a plurality of spaced sets of fuel injection openings, and a valve controlling the opening and closing of said openings, said valve movable to first open one set of openings and later open the second set of openin s.

6. In a fuel injection va ve for internal

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