US2787224A

US2787224A - Fuel pump

Info

Publication number: US2787224A
Application number: US372329A
Authority: US
Inventors: Stanley M Udale
Original assignee: Holley Carburetor Co
Current assignee: Holley Performance Products Inc
Priority date: 1953-08-04
Filing date: 1953-08-04
Publication date: 1957-04-02
Anticipated expiration: 1974-04-02

Description

April 2, 1957 s. M. UDALE 2,787,224

FUEL PUMP Filed Aug. 4, 195: a Sheets-Sheet 1 IN V EN TOR.

S. M. UDALE April 2, 1957 FUEL PUMP 3 Sheets-Sheet 2 Filed Aug. 4, 1953 INVENTOR.

5. M. UDALE FUEL PUMP April 2, 1957 3 Sheejzs-Sheet 3 Filed Aug. 4, 1953 INVENTOR.

United States Patent FUEL PUMP Application August 4, 1953, Serial No. 372,329 1 Claim. (Cl. 103-126) a The object of this invention is to sures from a gear much.

The ordinary gear pump when generating high pressure (over 350 p. s. i.) has a tendency to shift slightly the centers of the gears within the limitations of the bearing clearances. Eventually, if these clearances are sulficient, the gears touch on the entrance side and the ends of the teeth will wear into the cylindrical walls of the pump housing. By providing freely rotating rollers at the very tips of the teeth, this wear can be reduced so as to give a commercially reasonable life to the pump.

Figure 1 shows a cross-sectional elevation of the pump taken on plane 1-1of Figure .2.

Figure 2 shows a cross-sectional taken on plane 22 of Figure 1.

Figure 3 shows a cross-sectional taken on plane 33 of Figure 1.

Figure 4 shows a cross-sectional taken on plane 4-4 of Figure 11 Figure 5 is an enlarged view of the lower half of Figure 1.'

Figure 6 is a view taken on plane 6-6 of FigureS.

Figure 7 is a view taken on plane 7-7 of Figure 5.

Figure 8 is a view taken on plane 88 of Figure 5.

In the figures:

10 is the low pressure fuel entrance (see Fig. 3).

12 is the high pressure fuel exit. The driving gear 14, with integral support shafts, is driven by the splined shaft 16. 18 is the driven gear also with integral support shafts. is the outboard pump housing provided with two overlapping cylindrical cavities into which fit the two

gears

14 and 18 and the

end plates

26, 28, 46 and 48. 72 is the inboard pump housing into which the inboard shaft from the

gears

14 and 18 extend. This has two shallower overlapping cylindrical cavities of the same diameter as those in outboard pump 20 to provide means for d-owelling the casing 20 to the casing 72. 0 section seal 86, in groove 88 (Fig. 4), prevents liquid from escaping between the faces of

casings

20 and 72 when they are bolted together.

Four

journal bearings

74, 75, 76 and 77 are fixed in the outboard and

inboard pump housings

20 and 72 to receive the supporting shafts of the gears. These journals are separated from the four end sea-

l plates

26, 28, 46 and 48. Outboard and

inboard housings

20 and 72 are dowelled together so that the

bores receiving journals

74, 75, 76 and 77 may be line bored after which

journals

74, 75, 76 and 77 are shrunk or pressed into place with an interference fit of approximately 0.001 inch per inch of journal outside diameter. The

journals

74, 75, 76 and 77 are provided with lubrication slots in a conventional manner. Metered high pressure fluid is transferred to the lubrication slots in journals 74 and 77 by means of lines 71 and restrictions 70. Line 90 and restriction 92; and line 96 and restriction 94 furnish metered high pressure fluid to the lubrication slots in

journals

76 and 75.

generate high prespump without shortening its life too plan view of the pump elevation of the pump elevation of the pump ice I In order to subject the inboard end seal plates 26-28 to the high pressure, a passage 112 (Fig. 4) is provided in the inboard casing 72. Through this passage high pressure is transmitted to the right hand side of the two inboard end seal plates 2628 (Fig. 5). Low pressure is transmitted to the left hand side of the two outboard end plates 46--48 through the inclined passage 68 (Fig. 2), the central passage 66, through the opening 114 (Fig. 1) inside the gear 18. Low pressure is also transmitted to the

inboard journals

75 and 76 through the inclined passage 110 (Figs. 1 and 5) which passage is connected to the passage 114. In Fig. 3 the broken square crosshatching indicates low inlet pressure. The vertical lines represent the high pressure in the fuel outlet.

On the outboard end of the two overlapping cylindrical bores in the outboard housing 20 are the two outboard end seal plates having exactly the same thickness, 46 and 48. A narrow groove 52 (Figs. 3, 5 and 6) is located on the face of end seal plate 48 contacting the rotating end face of gear 14. A similar groove 50 is located on the similar face of end seal plate 46. These grooves extend from the pressure side of the pump around to within some whole multiple (usually one) of the angular tooth spacing from the pump inlet to establish definite areas of high and low pressure around the faces of the

end seal plates

46 and 48 in contact with the gears as, shown in Fig. 3. Similar grooves 53 and 55 in the end seal plates 26 and 28 are provided for similar purposes. The non-gear contact faces of

end seal plates

46 and 48 have

wider grooves

62 and 64 which are vented to inlet pressure through

passages

66 and 68. Pressure relief ports 82 and 84 are provided on the faces of end seal plates 46 and 48in cont-act with the gear end faces of 18 and 14 to allow the escape of fluid and prevent a pressure building up in the. geartooth intermesh region where the trapped fluid volume changes from a minimum to a maximum. These ports are located so that they are just being closed as the fluid trapped between the meshing gear teeth reaches a minimum volume.

In Figs. 6, 7 and 8 the outboard seal 48 is shown with an eccentric bore 80. Fig. 11, to effect a seal between the

end seal plates

46 and 48 and the journal bearings 74 and 77 (Figs. 1 and 7), is given an angular loading in the direction of the arrow. The actual eccentricity is very small and Fig. 11 is distorted for illustrative reasons. The 0 rings and 102 thus fit into the groove eccentrically provided in the

plates

26 and 48 Similar eccentric grooves for similar 0 rings are provided in plates 28 and 46.

For one configuration, the outside diameter of the

nitralloy gears

14 and 18 is 1.9995. The inside diameters of the aluminum housing 20 are 2.0005. The outside diameter of the gear shafts is .748 inch and the inside diameter of the

copper lead journals

74, 75, 76 and 77 is .075 inch. The outside diameter of the copper lead end seal plates is 1.999 inches. These dimensions give clearances such that when the gear shafts move in their appropriate journals toward the inlet side of the pump, the

rollers

113 and 115 on the tips of the gear tooth contacts the cylindrical bores in housing 20 on the pump inlet side and effect a seal. This gives a rough idea of the clearances tolerated if gasoline is to be pumped at 400 to 700 pounds per square inch without inside lubrication.

The four pressure end plates which act to seal the pump and are in two pairs; one pair 26 and 28 and the

other pair

46 and 48, one of which (46 and 48) are shown in Fig. 7 forced together by the eccentricity of the two 0 rings 100 and 104 and by the resultant of these two 0 rings laterally to the left to seal the high pressure in the exit 12 leaking to the low pressure in the entrance 10 are the subject of a co-pending application, our Case 3 658, Serial No. 157,070,v by Andrew Wm. Orr, Jr. for Fuel Pump and filed April 20, 1950, now Patent No. 2,682,836.

The novel feature in this application resides in the provision of the ground: steel rollers 113 and" 115' located in the tips of the teeth in the

gears

14 and 18;

Operation Before the pump is started,. the pumping elements are in definite positions. Springs 38 and 40 (Figs. 1 and 7) urge end seal plates 26 and 28 into contact with the inboard end faces of

gears

14 and 18. The outboard end faces of

gears

14 and 18 are urged into contact with. the inboard faces of

end seal plates

46 and 48 which urges the non-gear contact or outboard faces of

end seal plates

46 and 48 into sealing contact with the outboard vertical faces of the overlapping cylindrical bores in outboard pump housing 20. The eccentrically cut grooves for O ring seals 100', 102, 104 and 106 position the

endseal plate combination

46 and 48 and the end seal plate combination 26 and 28 so that they are urged toward each other and toward the inlet side of the pump. These measures elfect a preliminary seal for fluid leakage from high to low pressure at all points except across the gear tooth tips and their rollers 113 and 115'.

Immediately after the pump starts, pressure built up in the exit 12 and the leakage across the gear end face back to' entrance 10 is reduced by the end pressure of the inboard seal plates 26 and 28 against the sides of the two gears 14- and 18. This pressure is transmitted against the two

outboard seal plates

46 and 48. The left side of outboard end plates 46 and 48 (Fig. is maintained at the low pressure in the fuel entrance as shown by the broken square cross-hatching (Fig. 3) which holds these against the vertical face of outboard housing 20.

The areas of the four

end plates

26, 28, 46 and 48 are subjected on their inner faces to the high pressure generated by the gear teeth displacing liquid. Four narrow grooves 50, 52-, 53 and 55 (Fig. 3') equalize this pressure over the faces of the end plates.

Figure 3' also shows the hydraulic loads imposed upon the gears. When. these are combined with the gear. tooth loads the net load on the

gears

14 and 18 is such as to force them toward each other and toward the inlet side of the pump. This elfects a close seal between the

rollers

113 and 115 on the gear tooth tips and the housing 20 and minimizes leakage.

What I claim is:

In a high pressure pump having: a. pair of intermeshing gears having formed teeth on one gear which roll over the similar teeth on the other gear, a housing for such gears, inlet and outlet passages, two supporting shafts for each gear and four bearings for said shafts projecting into the walls of said housing,v individual rollers mounted into the outer tips of the ends of the teeth of. said intermeshing gears, said rollers being quite small relative to the teeth so that the rollers on one gear never engage with the rollers on the other gear, said shafts being mounted in said bearings with sufiicient clearance between to permit the rollers in the tips of the teeth" on the gears to barely touch the walls of the housing proximate the inlet in response to the high outlet pressure created inthe outlet passage by' the interaction of the teeth of the gears reacting against the low inlet pressure, whereby the said gears are urged toward the inlet side of said housing.

References Cited in. the file of this patent UNITED STATES PATENTS 137,055 Chapman Mar. 25-, 1873'- 2,420,622 Roth et al. May 13, 1947 2,527,941 Lauck et al Oct. 31, 1950- 2,624,287 Ilyin Jan. 6-, 1953 2,682,836 Orr July 6, 1954- 2,-707,44l Drennen May 3, 1955 2,714,856 Kane Aug. 9, 1955- FOREIGN PATENTS 521,031 Great Britain May 9, 1940