The present disclosure relates to engine assemblies, and more specifically to control of spark plug orientation in engine assemblies.
The statements in this section merely provide background information related to the present disclosure and may not constitute prior art.
Orientation of a spark plug within a combustion chamber may affect combustion, and therefore engine performance including power output, emissions and fuel economy. The combustion process may benefit from an orientation of the spark plug where the side electrode is oriented outward relative to the fuel injector. Complicated assembly processes may be required to ensure a desired orientation between the spark plug and the fuel injector resulting in additional cost and assembly time.
A spark plug orientation method may include forming a spark plug housing in an engine structure using a tool having a longitudinally extending body including a seat forming portion and a thread forming portion. The forming may include advancing the tool a first distance in a first axial direction into the engine structure to create a spark plug seat using the seat forming portion. The thread forming portion may extend from the seat forming portion and into a spark plug bore extending through the spark plug seat into a combustion chamber of the engine structure. The tool may be displaced a second distance in a second axial direction generally opposite the first axial direction after the forming to provide a predetermined axial orientation between the thread forming portion of the tool and the spark plug seat based on the first and second distances. The spark plug bore may be engaged at a first predetermined rotational position and the tool may be displaced in an orbital motion and in the second axial direction beyond the second distance at a predetermined rate to form a threading on the spark plug bore providing a starting point of the threading at a second predetermined rotational position proximate the spark plug seat.
A tool may include a tool body having a shank at a first end, a thread forming region, and a seat forming region located axially between the shank and the thread forming region. The shank may provide a structure for engagement with a drive mechanism. The thread forming region may form a threading on a workpiece and the seat forming region may form a seating region on the workpiece.
Further areas of applicability will become apparent from the description provided herein. It should be understood that the description and specific examples are intended for purposes of illustration only and are not intended to limit the scope of the present disclosure.
The drawings described herein are for illustration purposes only and are not intended to limit the scope of the present disclosure in any way.
The following description is merely exemplary in nature and is not intended to limit the present disclosure, application, or uses. It should be understood that throughout the drawings, corresponding reference numerals indicate like or corresponding parts and features.
As seen in
The cylinder head 14 may include intake and exhaust passages 28, 30, a spark plug housing 32, and a fuel injector housing 34. The engine block 12, cylinder head 14, and piston 18 may cooperate to define a combustion chamber 36. The spark plug 22 may be located in the spark plug housing 32, extending into and in communication with the combustion chamber 36. The fuel injector 24 may be located in the fuel injector housing 34, extending into and in communication with the combustion chamber 36, forming a direct injection configuration. The fuel injector 24 may also be located at the top of the cylinder head 14 in a region next to the spark plug 22 to form a central direct injection application. The valvetrain assembly 20 may be supported by the cylinder head 14 and may include intake and exhaust camshafts 38, 40 and intake and exhaust valve assemblies 42, 44. The intake camshaft 38 may be engaged with the intake valve assembly 42 and the exhaust camshaft 40 may be engaged with the exhaust valve assembly 44.
With additional reference to
The first portion 48 may additionally include a spiral threading 54 having a starting point 56 adjacent the stepped region 52. The thread starting point 56 may be located for a predetermined orientation of the spark plug 22. More specifically, the thread starting point 56 may be located at a rotational position that provides for a predictable and repeatable orientation of the side electrode 58 of the spark plug 22 radially outward from the fuel injector 24. As seen in
The spark plug housing 32 may be formed in a manner to create a repeatable and controlled orientation of the thread starting point 56 of the spiral threading 54. With reference to
In the present non-limiting example, the cylinder head 14 may form a workpiece for use with the tool 66. As seen in
Once in the desired axial position, the tool 66 may be orbitally displaced while the tool is further retracted in the second axial direction (D2) to form the spiral threading 54 on the spark plug housing 32. The tool 66 may be operated and controlled in a variety of ways including, but not limited to, computerized numerically controlled (CNC) machines such as a multi-axis CNC spindle with interpolation capabilities. As discussed above, the spiral threading 54 may terminate at a predetermined rotational position (i.e., thread starting point 56).
More specifically, the predetermined axial distance (L2) that the tool 66 is retracted prior to thread forming may be determined based on the predetermined rotational position of the thread starting point 56, the fixed axial spacing (L1) between the seat forming region 74 of the tool 66 and the cutters 76, and a predetermined thread angle (θ). As seen in
Number | Name | Date | Kind |
---|---|---|---|
2046041 | Spitz | Jun 1936 | A |
3346894 | Lemelson | Oct 1967 | A |
4651374 | Turchan | Mar 1987 | A |
4831674 | Bergstrom et al. | May 1989 | A |
5413438 | Turchan | May 1995 | A |
5735240 | Ito et al. | Apr 1998 | A |
6012882 | Turchan | Jan 2000 | A |
8141532 | Kameda | Mar 2012 | B2 |
Number | Date | Country | |
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20100092255 A1 | Apr 2010 | US |