Oil Supply For Internal Combustion Engine Camshaft

Abstract

An oil supply system for an internal combustion engine camshaft includes an oil distribution block configured for attachment to an engine structure adjacent to and above a camshaft, with attachment of the oil distribution block occurring after the camshaft has been installed in the engine. Fixed and movable ring segments, which are mounted to the oil distribution block, cooperate to provide the camshaft with oil under pressure, which may be used for controlling auxiliary devices such as a camshaft phaser or camshaft profile switching mechanism.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a cylinder head having an oil supply system according to the present invention.

FIG. 2 is a perspective view of an oil distribution block including fixed and movable ring segments according to the present invention.

FIG. 3 is an alternative embodiment of an articulated segmented ring assembly according to another aspect of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

As shown in FIG. 1, cylinder head 10 is equipped with oil distribution block 14, which is fastened to cylinder head 10. Oil distribution block 14 has two solenoid valves, 16, which provide oil pressure signals to camshafts 18, which have lobes 22 mounted thereupon. It should be understood from the foregoing that cylinder head 10 may be operated without camshaft phasers 60, which are shown as being driven by sprockets 64, in the event that a particular engine application does not require variable valve timing control.

The purpose of oil distribution block 14 is to provide an oil signal to phasers 60, via camshafts 18, by applying variable pressure oil at a cylindrical surface, 20, shown in FIG. 1 in cutaway. Cylindrical surface 20 has two ports 21 erupting therefrom, which are lined up with circumferential grooves 46 formed in movable ring segments 38 which are shown with particularity in FIG. 2. Oil controlled by solenoids 16 finds its way to oil feed passages 26 within oil distribution block 14. Each of passages 26 registers with one of the circumferential grooves 46 formed in a movable ring segment 38. Oil entering circumferential oil distribution grooves 46 makes its way into ports 21 formed in camshafts 18 and eventually ends up flowing axially along camshaft 18 and into one of phasers 60. The flow of oil through passages 26 is controlled by valves 16. One of passages 26 may be used for advancing camshaft timing, and the other for retarding timing. Alternatively, the passages may be used together, or in other control schemes, such as for controlling camshaft profile switching. The precise use of passages 26 is committed to those desiring to employ a system according to the present invention.

FIG. 2 illustrates a functional attribute of the present invention which allows oil distribution block 14 to be mounted to cylinder head 10 after camshafts 18 have been installed. Accordingly, movable ring segments 38 are mounted upon pivots 42 such that when fastener 44 is removed, movable ring segment 38 may be swung down so as to allow engagement of oil distribution block 14, including ring segments 38 and 30, with cylindrical surfaces 20 of camshafts 18. Then, when fastener 44 has been replaced, ring segments 30 and 38 are locked together, and oil may be directed to ports 21 formed in camshafts 18. Because only minimal expense in terms of machining is required to accommodate oil distribution block 14, within cylinder head 10, it is economically feasible to provide a single cylinder head casting, including machining for engines with and without camshaft phase control. Thus, according to the present method, it is possible to provide oil distribution blocks 14, and hence, camshaft timing control, with only selected engines, without the necessity of including costly valve hardware, or least partially cast and machined valve bodies, for all the engines within a range.

FIG. 3 illustrates an alternative embodiment in which an articulated segment and ring assembly 70 having a hinge, 74, is configured so that feed stem 78 and ring portion 76 may be opened by rotating about the axis of hinge 74 once fastener 88 has been removed. In this manner, articulated ring assembly 70 may be mounted to both camshaft 18 and to oil distribution block 14 by means of fastener 88, allowing oil to enter camshaft 18 by means of passage 82 and a similar passage behind passage 82 (not shown).

The fixed and movable ring segments according to the present invention may be formed from either metallic or non-metallic materials, such as plastics, or composites, or other materials known to those skilled in the art and suggested by this disclosure. The embodiment of FIG. 3 is particularly suited for rendering in a plastics material.

Although the present invention has been described in connection with particular embodiments thereof, it is to be understood that various modifications, alterations, and adaptations may be made by those skilled in the art without departing from the spirit and scope of the invention set forth in the following claims.

Claims

1. An oil supply system for an internal combustion engine camshaft, comprising: an oil distribution block configured for attachment to an engine structure adjacent a camshaft;an oil feed passage extending through said oil distribution block;a fixed ring segment, mounted to said oil distribution block, with said fixed ring segment having at least one interior, circumferential oil distribution groove in fluid communication with said oil feed passage; anda movable ring segment mounted to said oil distribution block, and cooperating with said fixed ring segment to encircle a ported cylindrical surface of a camshaft, so as to provide an interior portion of a camshaft with oil under pressure.

2. An oil supply system according to claim 1, wherein said oil distribution block is mounted to a cylinder head of an engine.

3. An oil supply system according to claim 1, wherein said movable ring segment has an interior circumferential groove in fluid communication with the interior circumferential groove formed in said fixed ring segment.

4. An oil supply system according to claim 1, wherein said movable ring segment is pivotably attached to said fixed ring segment.

5. An oil supply system according to claim 1, wherein said oil distribution block further comprises at least one valve for controlling a flow of oil through said oil feed passage and into a camshaft.

6. A cylinder head for an internal combustion engine, comprising: a cylinder head casting having at least one camshaft mounted thereto;a camshaft phaser mounted to said at least one camshaft;an oil distribution block for providing a control signal to said camshaft phaser, with said oil distribution block being mounted to said cylinder head casting at a location generally above and adjacent to said camshaft; anda segmented ring attached to said oil distribution block, with said segmented ring encircling a ported, cylindrical surface of said camshaft, and with said segmented ring having a fixed ring segment receiving oil from said oil distribution block, and a movable ring segment which is releasable so as to permit installation of said oil distribution block to said cylinder head casting and to said camshaft after said camshaft has been mounted in said cylinder head casting.

7. A cylinder head according to claim 6, wherein said movable ring segment is pivotably attached to said fixed ring segment.

8. A method for utilizing a common cylinder head casting for a basic internal combustion engine without a camshaft phaser or an upgraded engine equipped with a camshaft phaser, comprising: machining a common cylinder head casting to include a mounting pad for an oil distribution block;mounting at least one camshaft in said cylinder head casting;mounting an oil distribution block to said mounting pad of selected engines; andinstalling a movable oil distribution ring segment to a fixed oil distribution ring segment incorporated in the oil distribution block, such that said movable oil distribution ring and said fixed oil distribution ring encircle a ported, cylindrical portion of said at least one camshaft, so as to provide oil to a camshaft phaser mounted upon said camshaft.

9. A method according to claim 8, wherein said movable oil distribution ring segment is pivotably attached to said oil distribution block.

10. A cylinder head for an internal combustion engine, comprising: a cylinder head casting having at least one camshaft mounted thereto;an oil distribution block mounted to said cylinder head casting at a location generally above and adjacent said camshaft; andan articulated, segmented ring assembly attached to said oil distribution block, with said segmented ring encircling a ported, cylindrical surface of said camshaft, and with said segmented ring having a feed stem for receiving oil from said oil distribution block, and a ring segment attached to said feed stem, with said ring segment and said feed stem being hingedly openable so as to permit installation of said segmented ring to said camshaft and to said oil distribution block after said camshaft and said oil distribution block have been mounted to said cylinder head casting.

11. A cylinder head according to claim 10, wherein said segmented ring comprises a metallic casting.

12. A cylinder head according to claim 10, wherein said segmented ring is molded from plastics.

13. An oil supply system according to claim 10, wherein said oil distribution block further comprises at least one valve for controlling a flow of oil through said oil feed passage and into said camshaft.