Oil distribution system for an internal combustion engine valvetrain
An oil distribution system for an internal combustion engine valvetrain includes a rocker arm base member and a base plate. The rocker arm base member includes a distribution slot disposed into a base lower surface, a plurality of receiving holes extending from a sidewall and/or from the base upper surface of the rocker arm base member into the distribution slot, and a plurality of oil distribution holes passing from the distribution slot through the base upper surface. The base plate being configured to cover at least a portion of the base lower surface including at least a portion of the distribution slot. In operation, the distribution slot receives oil from the plurality of oil receiving holes, passes at least a first portion of the oil to the plurality of oil distribution holes, and the plurality of oil distribution holes discharge at least a second portion of the oil past a base upper surface to provide lubrication to a portion of a rocker arm or other valvetrain components.
This Continuation Application claims priority from United States Nonprovisional Application No. Ser. No. 19/263,649 filed on Jul. 9, 2025 and U.S. Provisional Application No. 63/669,847 filed on Jul. 11, 2024, the teachings of each of which are incorporated by reference herein in their entirety.
BACKGROUNDInternal combustion engines are used as the primary power plant for most modern vehicles. The internal combustion engine utilizes expansion of gases within a cylinder head wherein pistons, connecting rods, and a crank shaft convert a controlled explosion in a cylinder chamber into rotational movement. Control of the cylinder chamber is performed by sequential operation of intake and exhaust valves operated by a camshaft, cam follower (sometimes referred to as a lifter), push rod, and rocker arm for conducting air flow into and out of the cylinder chambers.
Two basic configurations of rocker arms are utilized. The first—commonly referred to as stud mounted rocker arms—include a threaded stud installed within the cylinder head. The rocker arm is connected to the threaded stud by passing the threaded stud through a hole in the rocker arm and securing the rocker arm to the stud with an adjustable fastener which allows for users to adjust the valve lash of the individual valve.
The second—commonly referred to as shaft mounted rocker arms—include a series of threaded holes in the cylinder head. A shaft about which the rocker arm pivots is bolted directly to the cylinder head—or in some instances bolted to a plate which is connected to the cylinder head.
Shaft mounted rocker arm systems commonly encounter issues with providing sufficient oil to lubricate the valve spring, valve, rocker arm and/or associated valvetrain components during operation. Several solutions have been proposed for providing sufficient oil to lubricate valvetrain components—including valve springs, valves, and rocker arms in a shaft mounted rocker arm system. One such solution is disclosed in U.S. Pat. No. 5,125,373 A which teaches an oil passage structure for a rocker-arm shaft for an internal combustion engine, comprises an outer cylindrical member for rotatably supporting rocker arms and an inner cylindrical member press-fitted into the outer cylindrical member. The inner cylindrical member employs at least one concavity having a given axial length for defining at least two axial oil passages.
In practice, the existing solutions often utilize a series of holes drilled into a base member to which the shaft mounted rocker arms are connected. Oil from below the rocker arm assembly passes into these holes and is discharged from the top of the base member to provide lubrication to the valvetrain components—including valve springs, valves, and rocker arms. These drilled holes suffer from several defects. Notably, precision drilling is required to ensure accurate alignment of the holes with the valvetrain components. Further, the holes can be difficult to clean of debris during servicing of the engine.
The need exists, therefore, for an improved oil distribution system for an internal combustion engine valvetrain which provides more accurate alignment of oil discharge holes with valvetrain components—including valve springs, valves, and rocker arms-and which can easily be cleaned during servicing of the engine.
SUMMARYDescribed herein is an oil distribution system for an internal combustion engine valvetrain. The oil distribution system includes a rocker arm base member and a base plate. The rocker arm base member has a base upper surface, a base lower surface, a plurality of sidewalls spanning a distance between the base upper surface and the base lower surface, and a plurality of base mounting holes extending from the base upper surface through the base lower surface. The rocker arm base member includes a distribution slot, a plurality of oil receiving holes, and a plurality of oil distribution holes. The distribution slot is disposed in the base lower surface. The plurality of oil receiving holes extend from at least one sidewall of the plurality of sidewalls and/or from the base upper surface into the distribution slot. The plurality of oil distribution holes pass from the distribution slot through the base upper surface. The base plate is configured to cover at least a portion of the base lower surface including at least a portion of the distribution slot. The distribution slot is configured to receive oil from the plurality of oil receiving holes and pass at least a first portion of the oil to the plurality of oil distribution holes. The oil distribution holes are configured to discharge at least a second portion of the oil past the base upper surface.
In some embodiments, the rocker arm base member may include a first rocker arm mounting structure. When present, the first rocker arm mounting structure may extend from the base upper surface. At least a first oil distribution hole of the plurality of oil distribution holes may be aligned with the first rocker arm mounting structure.
In certain embodiments, the rocker arm base member may include a second rocker arm mounting structure. When present, the second rocker arm mounting structure may extend from the base upper surface. At least a second oil distribution hole of the plurality of oil distribution holes may be aligned with the second rocker arm mounting structure.
In some embodiments, the base plate may include a plate upper surface and a plate lower surface. A plurality of plate mounting holes may extend from the plate upper surface through the plate lower surface. Preferably, at least one plate mounting hole of the plurality of plate mounting holes may be aligned with at least one base mounting hole of the plurality of base mounting holes when the base plate is covering at least a portion of the base lower surface. More preferably, each plate mounting hole of the plurality of plate mounting holes will be aligned with at base mounting hole of the plurality of base mounting holes when the base plate is covering at least a portion of the base lower surface.
Described herein is an oil distribution system for an internal combustion engine valvetrain. Reference is made to the Figures in which, unless otherwise noted, like numbers refer to like structures. As described herein and in the claims, the following numbers refer to the following structures as noted in the Figures.
10 refers to an oil distribution system.
20 refers to an oil flow path.
100 refers to a rocker arm base member.
101 refers to a base first end.
102 refers to a base upper surface.
103 refers to a base second end.
104 refers to a base lower surface.
105 refers to a base first edge.
106 refers to a sidewall.
107 refers to a base second edge.
108 refers to a base mounting hole.
110 refers to a distribution slot.
120 refers to an oil receiving hole.
130 refers to an oil distribution hole.
131 refers to a first oil distribution hole.
132 refers to a second oil distribution hole.
150 refers to a first rocker arm mounting structure.
160 refers to a second rocker arm mounting structure.
200 refers to a base plate.
210 refers to a plate upper surface.
220 refers to a plate lower surface.
230 refers to a plate mounting hole.
300 refers to a first rocker arm.
400 refers to a second rocker arm.
The rocker arm base member (100) includes a distribution slot (110) disposed in the base lower surface (104). In some embodiments, the distribution slot will originate at a base first end (101) and extend through a base second end (103). In other embodiments, the distribution slot will originate at the base first end without extending through the base second end. In yet other embodiments, the distribution slot will originate interior from the base first end and extend through the base second end. In still other embodiments, such as that shown in
A plurality of oil receiving holes (120) extend from at least one sidewall of the plurality of sidewalls (106) of the rocker arm base member (100). Each oil receiving hole of the plurality of oil receiving holes extends into and along the distribution slot (110) to allow oil exterior to the rocker arm base member to pass into the distribution slot. While the oil receiving holes may be located at any one sidewall of the plurality of sidewalls—including a sidewall corresponding to the base first end (101), the base second end (103), the base first edge (105), and/or the base second edge (107)—it is preferred that at least one of the oil receiving holes is located in a sidewall corresponding to the base first edge as shown in
A plurality of oil distribution holes (130) pass from the distribution slot (110) through the base upper surface (102) to allow at least a portion of the oil that passed into the distribution slot via the oil receiving holes to be discharged past the base upper surface and onto at least one rocker arm that is connected to the rocker arm base member (100). While the oil distribution holes may be located in any number of locations, it is preferred that each rocker arm connected to the rocker arm base member have at least one oil distribution hole substantially aligned to discharge oil onto valvetrain components such as a valve spring, valve, and/or rocker arm.
The base plate (200) also includes a plurality of plate mounting holes (230) with each mounting hole extending from the plate upper surface (210) through the plate lower surface (220). Preferably, at least one plate mounting hole of the plurality of plate mounting holes will be aligned with at least one base mounting hole (108) of the plurality of base mounting holes when the lower plate is covering at least a portion of the base lower surface such that a single fastener—such as a bolt or a stud with a nut—may pass through both the base mounting hole and the plate mounting hole to attach the rocker arm base member (100) to the base plate and to connect the assembled rocker arm base member and base plate to the cylinder head (not shown). In more preferred embodiments, each plate mounting hole of the plurality of plate mounting holes will be aligned with a separate base mounting hole of the plurality of base mounting holes.
In the exemplary embodiment shown in
In the embodiments shown in
The oil distribution systems disclosed herein represent an improvement over the prior art. The distribution slot in the base lower surface can be easily and precisely machined to accurately align with the valve spring, valve, rocker arm, and/or associated valvetrain components without the need for difficult precision drilling. Subsequent covering of the distribution slots by the base plate allows a user to easily access the distribution slot, oil receiving holes, and oil distribution holes for cleaning of debris during servicing of the engine.
While the oil distribution system has been described as having one or more exemplary designs, the present article may be further modified within the spirit and scope of this disclosure. This application is therefore intended to cover any variations, uses, or adaptations of the oil distribution system using their general principles.
Claims
1. An oil distribution system (10) for an internal combustion engine valvetrain, said oil distribution system comprising: wherein the distribution slot is configured to receive oil from the plurality of oil receiving holes and pass at least a first portion of the oil to the plurality of oil distribution holes, and wherein said oil distribution holes are configured to discharge at least a second portion of the oil past the base upper surface.
- a rocker arm base member (100) having a base upper surface (102), a base lower surface (104), a plurality of sidewalls (106) spanning a distance between the base upper surface and the base lower surface, and a plurality of base mounting holes (108) extending from the base upper surface through the base lower surface, said rocker arm base member comprising: a distribution slot (110) disposed in the base lower surface; a plurality of oil receiving holes (120) wherein at least a first set of the plurality of oil receiving holes extends from at least one sidewall of the plurality of sidewalls; and a plurality of oil distribution holes (130) passing from the distribution slot through the base upper surface; and
- a base plate (200) configured to cover at least a portion of the base lower surface including at least a portion of the distribution slot; and
2. The oil distribution system of claim 1, wherein the rocker arm base member includes at least a first rocker arm mounting structure (150) extending from the base upper surface and at least a first oil distribution hole (131) of the plurality of oil distribution holes is aligned with the first rocker arm mounting structure.
3. The oil distribution system of claim 2, wherein the rocker arm base member includes at least a second rocker arm mounting structure (160) extending from the base upper surface and at least a second oil distribution hole (132) of the plurality of oil distribution holes is aligned with the second rocker arm mounting structure.
4. The oil distribution system of claim 1, wherein at least a second set of the plurality of oil receiving holes extends from the base upper surface into the distribution slot.
5. The oil distribution system of claim 1, wherein the distribution slot originates at a base first end (101) and extend through a base second end (103).
6. The oil distribution system of claim 1, wherein the distribution slot originates at a base first end without extending through a base second end.
7. The oil distribution system of claim 1, wherein the distribution slot originates interior from a base first end and extends through a base second end.
8. The oil distribution system of claim 1, wherein the distribution slot originates interior from a base first end without extending through a base second end.
9. The oil distribution system of claim 1, wherein the base plate includes a plate upper surface (210), a plate lower surface (220), and a plurality of plate mounting holes (230) extending from the plate upper surface through the plate lower surface.
10. The oil distribution system of claim 9, wherein at least one plate mounting hole of the plurality of plate mounting holes is aligned with at least one base mounting hole of the plurality of base mounting holes when the base plate is covering at least a portion of the base lower surface.
11. The oil distribution system of claim 9, wherein each plate mounting hole of the plurality of plate mounting holes is aligned with a base mounting hole of the plurality of base mounting holes when the base plate is covering at least a portion of the base lower surface.
12. The oil distribution system of claim 2, wherein the base plate includes a plate upper surface (210), a plate lower surface (220), and a plurality of plate mounting holes (230) extending from the plate upper surface through the plate lower surface.
13. The oil distribution system of claim 3, wherein the base plate includes a plate upper surface (210), a plate lower surface (220), and a plurality of plate mounting holes (230) extending from the plate upper surface through the plate lower surface.
14. The oil distribution system of claim 12, wherein at least one plate mounting hole of the plurality of plate mounting holes is aligned with at least one base mounting hole of the plurality of base mounting holes when the base plate is covering at least a portion of the base lower surface.
15. The oil distribution system of claim 12, wherein each plate mounting hole of the plurality of plate mounting holes is aligned with a base mounting hole of the plurality of base mounting holes when the base plate is covering at least a portion of the base lower surface.
16. The oil distribution system of claim 13, wherein at least one plate mounting hole of the plurality of plate mounting holes is aligned with at least one base mounting hole of the plurality of base mounting holes when the base plate is covering at least a portion of the base lower surface.
17. The oil distribution system of claim 13, wherein each plate mounting hole of the plurality of plate mounting holes is aligned with a base mounting hole of the plurality of base mounting holes when the base plate is covering at least a portion of the base lower surface.
Type: Application
Filed: Jan 30, 2026
Publication Date: Jun 11, 2026
Applicant: Manton Pushrods, LLC (Lake Elsinore, CA)
Inventor: Jordan Raymond MANTON (Canyon Lake, CA)
Application Number: 19/465,743