Patent Application
20130019472
The invention relates to a method of manufacturing a cam carrier, and, more specifically to machining a cam bore in a cam carrier. An apparatus for carrying out the method is also provided.
Cam carriers are sometimes used on engines in instances where packaging a valve train configuration between cam towers would otherwise be difficult because of limited space between the cam towers. For example, a continuously variable valve actuation system requires a cam carrier assembly which houses the intake camshaft and actuates a roller finger follower to output a continuously variable valve lift. In order to ensure that the camshaft is appropriately located relative to the cylinder head, the cam bore in the cam carrier is machined while the cam carrier is mounted to the cylinder head in the cylinder head subassembly line. The valve actuation system is assembled to the cam carrier and the valve actuator lash adjusted, also while the cam carrier is mounted to the cylinder head in the cylinder head subassembly line. The subassembly steps thus complicate the logistics of the assembly process of the cylinder head subassembly line.
A method of manufacturing a cam carrier is provided that allows a cam carrier bore to be machined with the cam carrier apart from (i.e., not connected to) the cylinder head to which it will be connected. The cam carrier with machined bore can then be connected to any cylinder head in an inventory of cylinder heads for which the cam carrier is designed. The cam carrier subassembly and valve train lash adjustment can be completed separately from the cylinder head production.
A method of manufacturing a cam carrier is provided. The cam carrier mounts to a cylinder head having a first set of features and a first set of datums. The first set of features is spatially arranged relative to the first set of datums. The method includes securing a cam carrier to a fixture at a second set of features of the fixture. The fixture is apart from the cylinder head and the features of the second set of features are spatially arranged relative to one another in a substantially identical manner as the first set of features are spatially arranged relative to one another. A cam bore is then machined in the cam carrier at a position determined relative to the second set of features and relative to a surface of the cam carrier that abuts the fixture. Because the features of the second set of features are spatially arranged substantially identically as the features of the first set of features, the cam bore is positioned relative to the first set of datums even though it is machined while on the fixture and separate from the cylinder head.
Optionally, the method may include assembling a valve train to the cam carrier as a cam carrier assembly after the cam bore is machined, and then securing the cam carrier assembly to the cylinder head. The valve train may also be calibrated prior to securing the cam carrier assembly to the cylinder head.
An apparatus for manufacturing a cam carrier includes the fixture described above.
The above features and advantages and other features and advantages of the present invention are readily apparent from the following detailed description of the best modes for carrying out the invention when taken in connection with the accompanying drawings.
Referring to the drawings, wherein like reference numbers refer to like components throughout the several views,
In order for the cam carrier 12, cylinder head 18 and engine block 20 to fit together in a functional manner, datums are established for various locating features of the components. For example, the cylinder head 18 has a first set of features that are positioned relative to a first set of datums that establish the position of the cylinder head 18 to the engine block 20. The first set of features are a first set of openings, dowel holes 24, 26, best shown in
The cylinder head 18 is mounted to the engine block 20 by dowels positioned at dowel holes 37, 39 shown in phantom with centerlines 40, 42 indicated in
The cam carrier 12 also has a mounting surface 46 that abuts a first mounting surface 67 of the cylinder head 18 when the cam carrier 12 is mounted to the cylinder head 18. To maintain true positional requirements for the bore 22 in the cam carrier 12, the center axis 50 of the bore 22 is positioned by the boring machine relative to the dowel holes 37, 39 and mounting surface 44. However, for manufacturing efficiency, it is desired to machine the bore 22 without the cam carrier 12 being mounted to the cylinder head 18 and without the cam carrier 12 being necessarily tied to any specific cylinder head 18 in an inventory of like cylinder heads. Tracking specific cam carriers 12 with specific cylinder heads 18 is not necessary. In order to maintain the true position of the bore 22 relative to the first set of datums of the cylinder head 18 and yet machine the bore 22 without the cam carrier 12 being mounted to or associated with a specific cylinder head 18, the cam bore 22 is machined relative to the features of the cam carrier 12 that are positioned based on the first set of datums 24, 26, 44. This is accomplished by providing a fixture 60 that has a second set of features 62, 64 spaced relative to one another substantially identically as the first set of features 24, 26. The second set of features is fastener openings 62, 64 at which the cam carrier 22 can be mounted to the fixture 18. There are other fastener openings 69 in the fixture 18 as well. The other fastener openings 69 align with the other fastener openings 30 of the cylinder head 18. The fixture 60 also has a second mounting surface 66 that is substantially identical to the mounting surface 67 of the cylinder head 18 at which the cam carrier mounting surface 46 abuts the cylinder head 18. The second mounting surface 66 may have a predetermined dimensional tolerance with respect to a mounting surface 68 at which the fixture 60 mounts to a computer numeric control (CNC) machine.
After machining the bore 22, a valve train 70 may be assembled to the cam carrier 12, as shown in
Because the bore 22 is positioned relative to the second set of features of the fixture 60, which in turn are positioned relative to one another just as the first set of features of the cylinder head 18 are positioned relative to one another, the cam carrier 12 may now be fit to any cylinder head 18 within the inventory of like cylinder heads.
Accordingly, with reference to the cam carrier 12, cylinder head 18 and engine block 20 shown and described with respect to
The method 100 also includes block 104, providing a fixture 60 having a second set of features, fastener openings 62, 64, and a second mounting surface 66 at which the surface 46 of the cam carrier 12 will be mounted. The second set of features 62, 64 are spatially arranged relative to one another substantially identically as the first set of features 24, 26 are spatially arranged relative to one another;
The method further includes block 106, providing a cam carrier 12 having a third set of fastener openings 31 spaced relative to one another substantially identically to the relative spacing of the first set of features, dowel holes 24, 26 and openings 30, and the second sets of features in the fixture 60, fastener openings 62, 64. The cylinder head 18 has a mounting surface 67 for the cam carrier 12. The second mounting surface 66 of the fixture 60 is substantially identical to the mounting surface 67 of the cylinder head 18 for the cam carrier 12.
The method 100 includes block 108, securing the cam carrier 12 to the fixture 60 at the second mounting surface 66 by extending fasteners 32 through the second fastener openings 62, 64 and additional openings 69 in the fixture 60, and through the third set of fastener openings 31 in the cam carrier 12 with a mounting surface 46 of the cam carrier 12 abutting the fixture 60 at the second mounting surface 66.
Once the cam carrier 12 is secured to the fixture 60, the method 100 includes block 110, machining a cam bore 22 through the cam carrier while the cam carrier is secured to the fixture and is apart from all of the cylinder heads. As discussed above, the cam bore 22 is located in the cam carrier 12 relative to the second set of features, fastener openings 62, 64, as well as surface 66. The cam bore 22 is thereby being machined relative to the substantially identical first set of features, dowel holes 24, 26, and first mounting surface 67.
In block 112, the cam carrier 12 can then be released from from the fixture 60. A valve train 70, shown in
In block 118, the cam carrier 12 with the calibrated valve train 70 assembled thereto can then be secured to any one of the cylinder heads 18 in the inventory by extending the same or different fasteners 32 through the first and the third sets of fastener openings 31, 30, respectively, with the mounting surface 46 of the cam carrier 12 abutting the mounting surface 67 of the selected cylinder head 18.
The method 100 may include block 120, providing an inventory of engine blocks each substantially identical to engine block 20. In block 122, the cylinder head 18 with cam carrier 12 connected thereto can then be positioned on the engine block 20 at the first set of datums, the dowel holes 37, 39, with the first mounting surface 44 of the cylinder head 18 abutting the engine block 20. The cylinder head 18 can then be bolted to the engine block 20 in block 124.
While the best modes for carrying out the invention have been described in detail, those familiar with the art to which this invention relates will recognize various alternative designs and embodiments for practicing the invention within the scope of the appended claims.
