US2244394A

US2244394A - Spray nozzle

Info

Publication number: US2244394A
Application number: US196021A
Authority: US
Inventors: Richard W Hautzenroeder
Original assignee: Individual
Current assignee: Individual
Priority date: 1938-03-15
Filing date: 1938-03-15
Publication date: 1941-06-03
Anticipated expiration: 1958-06-03

Description

June 3, 1941 R. W. HAUTZENROEDER 2,244,394

SPRAY NOZ ZLE Filed March 15. 1938 INVENTQR.

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Patented June 3, 1941 UNITED ASTATES PATENT .OFFICE nichara'w. Hautzenmeaer, Mansfield, ohio Application March 15, 193s, serial No. 196,021

4 Claims.

' tion (Diesel type) are:

1. Mechanical reliability and freedom from clogging.

2. The production of a fine spray at all rates and pressures of injection, so as to reduce ignition lag to a minimum.

3. The correct form and directional effect to l reduce ignition lag and enable the fuel to reach all of the air in the combustion chamber when the engine is operating at full load. 1

4. High spray velocity.

5. Freedom from bounce or secondary discharge.

6. Substantially instantaneous response to pressure fluctuations.

7. Either constant penetrability of the spray irrespective of the degree of pressure or amount of fuel injected,v or turbulence of the air, or a sweeping spray in order to avoid "burned out zones and reach all of Ithe air in the combustion chamber.

'Ihe present invention has as its primary object the provision of a spray nozzle of the type described having the foregoing characteristics, and consisting of a minimum number of inexpensively manufactured and readily assembled parts.

To the accomplishment of the foregoing and relatedends, said invention, then, consists of the' means hereinafter fully described and particularly pointed out in the claims; the annexed drawing and the following description setting forth in detail certain `mechanism embodyin'g the invention, such disclosed means constituting, however, -but one of various mechanical forms in which the principle Iof the invention may be used.

In said annexed drawing:

Fig. 1 is 'a cross-sectional view of a preferred form of spray nozzle;

Fig. 2 is a transverse cross-sectional view of the preferred form of nozzle taken on the line 2-2 of Fig. 1;

' Fig. 3 is a view similar to Fig. 1, but showing the lower portion of a modified form of nozzle;

(Cl. 29g-4107.6)

. Fig. 4 is a plan view of the lower end of the nozzle of Fig. 3;

Figs. 5, 6 and 7 are enlarged views of the end of the nozzle shown in Figs. 3 and 4, showing the effect of variations in the fuel pressure;

Figs. 8 and 9 are views similar to Figs. 3 and 4 respectively, but showing still another modified form of nozzle; and

Figs. 10 and 11 are cross-sectional views of modified forms of nozzle couplings.

Referring more particularly to Figs. 1 and 2 ofthe drawing, the nozzle therein shown will be seen to comprise a body member I having at its upper end a hexagonal head 2 and' at its lower end an exteriorly threaded portion 3 of reduced diameter, whereby the nozzle may be secured in a threaded aperture formed therefor in the wall of the cylinder of the engine to which the nozzle is applied, the nozzle being thus applied as by applying a wrench to the head 2 thereof. The body member4 I has a cylindrical bore extending axially therethrough, the wall of the central portion of this bore being threaded as at to receive the upper threaded portion of a valve member 5, and the wall of the upper portion of the bore, which is of greater diameter than the central and lower portions thereof, being threaded as at 6 for the reception of a nut 7, the function of ywhich will be presently described. The body member I is preferably formed of hard steel.

The Valve member 5 is preferably formed from a highly elastic material, such as tool-stee1, which is resistant to the eroding effect of fuel flowing therethrough at high velocities, It has a central portion 8 of reduced diameter, so as to localize the elastic deformation of the valve member resulting from the pressure of the fuel flowing therethrough, and a spray head 9, the lower end of which is slotted as at I0 for jIengagement by a screw driver, whereby the valve member is secured within the body member I. The valve member has an axial bore or passageway I I extending from the upper end thereof to a point just below the central portion 8, where it communicates with an axial bore I2 of smaller diameter than the bore II. 'Ihe bore I2 extends to approximately the center .of the spray head., where it communicates with a plurality of raslotted portion of the head engages the wall of the bore in the member 2 and thereby prevents lateral displacement of the spray head at 'any time during the spraying operations.

The valve member is maintained in its ad justed position by means of a plug I8 of a malleable metal, such as copper, which is pressed into engagement with the threaded portion of the valve member and expanded by means of a dog point set screw II, so as to prevent leakage at this point. Y

The conduit I8 which conducts the fuel from the distributor of the fuel pump Vto the valve member of the nozzle is secured to the latter by means of the nut 1, the nut having an axial bore IS, the wall of the lower portion of which is threaded for engagement by the externally threaded end of the conduit I8.

With the valve member in proper position within the body member of the nozzle, the groove I4 will normally be covered by the lower portion of said body member, but will be uncovered as the valve member becomes elongated in response to increasing pressure of the fuel against the spray head of the valve member. The spray will then be dened by the outermost edge of the lower wall of the annular groove I4 and the adjacent end of the wall of the bore in the body member I, and will be in the form of a cone or conical sheet, the thickness and cone angle of which will vary, depending on the extent to which the valve member is elongated, or, in other words, on the extent to which the valve is opened.

The fit between the spray head of the vvalve member and the bore of the body member should be tight enough to prevent ldriblolef but not so tight as to create undue frictional resistance to the movement ofthe spray head. This flt need not be nearly as tight as is required in valves embodying the conventional type of lapped plungers, which must remain leakproof, since any leakage is inward instead of outward.

In that form of the invention shown in' Figs. 3 to 'I inclusive, the valve member of the nozzle is generally similar in construction to that shown in Fig. 1, but the central portion 8a thereof is considerably longer than the corresponding portion of the valve member in Fig. 1. This valve member has a spray head 9a, the upper cylindrical portion of which ts closely within the bore of the body member Ia, and the lower portion of which has ilats Ia in its side, whereby the valve member may be engaged bya wrench to secure it in position. The valve member has an axial bore or passageway IIa extending from the upper end thereof to approximately the center of the spray head, where it communicates with a plurality of radially extending passages I3a, which extend to the peripheral surface of the spray head. In the present valve member ve such passages are provided.

With the valve member in proper position within the body member I of the nozzle the outlet ends of the passages I3a will normally be covered by the lower end of said body member, but will be uncovered as the valve member becomes elongated in response to increasing pressure of the fuel against the spray head of the valve member. The spray will then be de.

ilned by the outermost ends of the lower walls of the passages I3a and the adjacent end of the wall of the bore in the body member Ia, and will be in the form of a series of jets spaced circumferentially of the spray head, instead of a cone, as in Fig. 1. Thecross-sectional area of the jets and cone angle formed lthereby will vary, depending on the extent to which the valve member is elongated, that is to say, the extent to which the valve is opened. Figs. 5, 6 and 7 show the change in area of the jets and the manner in which the cone angle increases in response to increase in pressure of the fuel on the spray head.

In that form of the invention shown in Figs. 8 and 9, the valve member of the nozzle is generally similar in construction to that shown in Figs. 1 and 3, but the axial bore or passageway IIb extends only from the upper end of the valve member -to approximately the center of the threaded portion 5b thereof, where it communicates with an inclined passage 2I, which extends to the upper end of the annular chamber 22 between the reduced central portion 8b of the valve member and the wall of the bore in the body member Ib. ln this case, the central portion 8b of the valve member is solid instead of tubular, and the fuel flows through passages IIb and 2I into the chamber 22. A portion of the lower end of the body member Ib is ground or out away, as at 23, so as to provide an outlet orifice between the inner edge of the cut-away portion and the adjacent upper edge 24 of the spray head 9b. The spray, in this case, will be coniined to an arc determined by the extent of the cut-away portion.

Here again, the thickness and cone angle of the spray will vary.. depending on the extent to which the valve member is elongated.

In Fig. 10 is shown a somewhat modiiled form of coupling, in which the conduit Ia is not brought into contact with the upper end of the valve member, but instead, a portion of the bore in the body member Ic is utilized to conduct the fuel to the valve member. VIn such oase, it is necessary to provide a iuid tight joint between the outlet end of thel conduit and the bore in the body member. This is accomplished by providing a nut Ia with an axial bore I9a, the wall of the lower portion of which is provided with iine threads for threaded engagement by the externally threaded end 20a of the conduit Ia. The nut Ia has threads 3a on its external surface, which are coarser than the internal threads of the nut. The nut is ilrst threaded onto the conduit IBa in such manner that a'portion of the conduit projects below the nut. The nut is then secured to the body Ic, and since the threads 3a are coarser than thethreads 20a, as the nut is drawn down, the lower end of the conduit is forced against a shoulder 25 in the body member and is caused to be ared, as shown, thus providing a fluid-tight joint.

In Fig. 11-is shown still' another modication of coupling in which the conduit Ib is not brought into contact with the upper end of the valve member. In this case, the conduit I8b extends down into the bore in the body member Id, and packing 26 is interposed between the lower end of the nut 1b and a shoulder 21 on the body member, this packing providing an effective fluid-tight seal when compressed upon drawing down the nut 1b.

It will be apparent that all of the spray nozzles which have been described embody all or substantially all of the desirable characteristics which have been hereinbefore enumerated.

The nozzles are mechanically reliable, since the only movement is the elastic deformation or elongation of the valve member, whichdoes not exceed a few thousandths of an inch, and which takes place easily in view of the relatively loose iit of the parts. Moreover, the nozzle is reasonably free from liability to become clogged, because the accumulation of any foreign matter in the nozzle would tend to increase the resistance to ow of the fuel, thereby creating more pressure and causing the valve -member to become further elongated than normally, so that the outlet orifice or orifices would become enlarged to the point where such foreign matter would be blown out.

A fine spray is secured at all pressures because of the variable orifice in each of the nozzles.

The correct form of spray can be readily obtained by varying the location and nature of the orifices during manufacture.

The high spray velocity is obtained at all pressures due to the presence of the variable orifice or orifices.

The nozzles are free from bounce or secondary discharge since the free fit of the coacting parts and the rapid reduction in orifice area as the valves close permit the valves to "pinch o the fuel positively and without shock. andl without setting up rebound wave in the fuel line.

The nozzles are instantaneously responsive to pressure variations, since the free fit of the parts reduces friction to a minimum, and the small mass of the spray heads, in conjunction with their'extremely short range of movement, reduces inertia effects to a negligible minimum.

Although the penetrability of the nozzles will vary with the pressure, the sweeping action obtained through variation in cone angle will permit reaching all of the air in a correctly proportioned conventional combustion chamber.

In addition to the foregoing functional advantages of the spray nozzles, they have the additional practical advantage of being adapted to economical production thereof in either large or small quantities. The low cost of manufacture results directly from their small size, small number of parts, simplicity of machining operations. and comparative freedom from costly precision.

Other modes of applying the principle of my invention may be employed instead of the one explained. change being made as regards the structure herein disclosed. provided the means stated by any of the following claims or the equivalent of such stated means be employed.

ly claim as my invention:

i. In a spray nozzle for internal combustion engines, the combination of a valve body having a cylindrical open-ended bore and provided with an opening for fluid under pressure, a valve member in said bore having a cylindrical head forming a uid tight seal with the cylindrical wall of said bore, and yieldable means under -substantially zero initial tension maintaining said head in sealing engagement in said bore but permitting displacement of said head out of such sealing engagement upon the application of fluid pressure in said bore.

2. In a spray nozzle for internal combustion engines, the combination of a valve body having a cylindrical open-ended bore and provided with an opening for fluid under pressure, a valve member in said bore having a cylindrical head forming a fluid tight seal with the cylindrical wall a cylindrical open-ended bore and provided with an opening for fluid under pressure, a valve member in said bore having a cylindrical head forming a 'fluid tightv seal with the cylindrical wall of said bore, a plurality of fuel discharge openings in the cylindrical surface of said head communicating with said bore in the space behind said head and so formed that they will be progressively uncovered as said head is moved out of said bore, and yieldable means under substantially zero initial tension maintaining said head in sealing engagement in said bore but permitting displacement of said head to progressively uncover said discharge openings upon the application of uid pressure in said bore.

4. In a spray nozzle for internal combustion engines, the combination of telescopically engaged relatively axially movable valve members, one of which is provided with a fuel discharge opening which is progressively uncovered upon relatively axial movement of said members, and yieldable means under substantially zero initial tension maintaining said members in such relation that such fuel discharge opening is closed, but permitting relative axial displacement of said members to progressively uncover said fuel discharge A I therefore particularly point out and distinct' 55 opening.

RICHARD w. mmmaonnm.