A vehicle includes a frame which defines an access aperture for facilitating access to an engine's spark plug. Methods are also provided for installing and replacing a spark plug.
Many conventional vehicles, such as certain motorcycles, include an engine which is positioned upon the vehicle to attain optimal performance and styling of the vehicle, and when possible, to additionally facilitate accessibility for servicing of the engine's components.
In accordance with one embodiment, a vehicle comprises an engine and a frame. The engine comprises a cylinder housing and a spark plug. The cylinder housing defines a spark plug aperture. The spark plug is received within the spark plug aperture. The frame supports the engine and comprises a frame member. The frame member is adjacent to the cylinder housing and defines an access aperture. The access aperture is substantially aligned with the spark plug aperture. The access aperture is configured to facilitate installation and removal of the spark plug with respect to the spark plug aperture.
In accordance with another embodiment, a motorcycle comprises an engine and a frame. The engine comprises a valve cover and a spark plug. The valve cover defines a spark plug aperture. The spark plug is threadably received within the spark plug aperture. The frame comprises an engine carriage. The engine carriage supports the engine. The engine carriage comprises a forward member. The forward member is adjacent to the valve covet and defines a substantially round access aperture. The access aperture extends through the forward member and is substantially aligned with the spark plug aperture. The access aperture is configured to facilitate installation and removal of the spark plug with respect to the spark plug aperture by facilitating passage of the spark plug at least partially through the access aperture.
In accordance with yet another embodiment, a method is provided of installing a spark plug into a spark plug aperture in a cylinder housing of an engine of a vehicle. The method comprises inserting an end of a socket wrench into an access aperture provided in a frame of the vehicle, wherein the access aperture is substantially aligned with the spark plug aperture. The end of the socket wrench is engaged with the spark plug. The end of the socket wrench is rotated such that the spark plug is threaded into engagement with the cylinder housing. The end of the socket wrench is removed from the access aperture.
In accordance with still another embodiment, a method is provided of replacing a first spark plug with a second spark plug. The method comprises inserting an end of a socket wrench into an access aperture provided in a frame of a vehicle. The end of the socket wrench is engaged with a first spark plug, wherein the first spark plug is threadably received within a spark plug aperture in a cylinder housing of an engine of the vehicle, and wherein the spark plug aperture is substantially aligned with the access aperture. The end of the socket wrench is rotated such that the first spark plug is threaded from engagement with the cylinder housing. The end of the socket wrench is removed from the access aperture. The first spark plug is withdrawn from the cylinder housing. The end of the socket wrench is inserted into the access aperture. The end of the socket wrench is engaged with the second spark plug. The end of the socket wrench is rotated such that the second spark plug is threaded into engagement with the cylinder housing. The end of the socket wrench is removed from the access aperture.
It is believed that certain embodiments will be better understood from the following description taken in conjunction with the accompanying drawings in which:
Embodiments are hereinafter described in detail in connection with the views and examples of
Referring more particularly to
As shown in
In the embodiment of
The access aperture 36 can be defined by the forward member 32 to facilitate quick and easy access to the spark plug 50 and the spark plug aperture 20, and without necessitating removal of the engine 12 and/or portions of the frame 30. While the access aperture 36 can facilitate access to the spark plug 50 and/or the spark plug aperture 20 in this manner, it will be appreciated that the access aperture 36 might not provide access to the entire forward cylinder housing 14. In particular, portions of the forward member 32 which are adjacent to the access aperture 36 can substantially prevent access to certain portions of the cylinder housing 14, and more particularly to certain portions of the forward valve cover 18, which are adjacent to the spark plug aperture 20.
While the access aperture 36 is shown to be substantially round and to extend through the forward member 32, it will be appreciated that an access aperture can alternatively be provided in any of a variety of other configurations. It will also be appreciated that an access aperture for providing access to a spark plug can be provided through a member or portion of a vehicle's frame other than a forward member, and can provide access to a spark plug aperture and/or a spark plug of a cylinder housing other than a forward cylinder housing of an engine. In one embodiment, an access aperture can be formed in a frame member during a process of molding or stamping the frame member. In another embodiment, an access aperture can be formed in a frame member by drilling, punching, or machining a frame member which has previously been cast or stamped.
The access aperture 36 is shown to be substantially aligned with the spark plug aperture 20 defined by the forward valve cover 18. In this configuration, it will be appreciated that the access aperture 36 can facilitate easy installation and removal of the spark plug 50 with respect to the spark plug aperture 20 (e.g., without necessitating removal of the engine 12 or the forward member 32) by facilitating passage of the spark plug 50 at least partially through the access aperture 36. The access aperture 36 can also facilitate access by an end (e.g., 66 in
While the access aperture 36 is shown in
Once the spark plug 50 is threaded into the spark plug aperture 20, such as through use of the socket wrench 60, a spark plug cable (not shown) can be attached to the spark plug 50 for conducting electrical power to the spark plug 50 during normal use of the motorcycle 10. In one embodiment, the spark plug cable can be routed to the spark plug 50 by passing the spark plug cable into a gap located between the forward valve cover 18 and the forward member 32 of the frame 30. In another embodiment, the spark plug cable can be routed to the spark plug 50 by passing the spark plug cable through the access aperture 36. It will be appreciated, however, that a spark plug cable or any other vehicle ignition component(s) (e.g., an ignition coil) can be routed to a spark plug in any of a variety of other suitable configurations.
The access aperture 36 can be defined by the forward member 32 in any of a variety of suitable locations and arrangements. For example, in one embodiment, as shown in
It will be appreciated that provision of the access aperture 36 in the forward member 32 of the frame 30 can facilitate efficient methods of installing and removing the spark plug 50 with respect to the spark plug aperture 20 defined by the forward valve cover 18 of the engine 12. Were it not for the presence of the access aperture 36, it will be appreciated that removal and installation of the spark plug 50 with respect to the spark plug aperture 20 might require removal of the engine 12 and/or a portion of the frame (e.g., the forward member 32) from the motorcycle 10 which, from a practical perspective, would be so difficult as to potentially render the engine/frame configuration of
For example, in one embodiment, in order to remove the spark plug 50 from the spark plug aperture 20, an operator can insert the end 66 of the socket wrench 60 into the access aperture 36, and can engage the end 66 of the socket wrench 60 with the spark plug 50. In one embodiment, as shown in
In order to install the spark plug 50 into the spark plug aperture 20, an operator can insert the spark plug, 50 into the spark plug aperture 20, such as by passing the spark plug 50 at least partially (i.e., partially or completely) through the access aperture 36. The operator can also insert the end 66 of the socket wrench 60 into the access aperture 36, and can engage the end 66 of the socket wrench 60 with the spark plug 50. This engagement can occur before, during, or after the spark plug 50 is inserted into the spark plug aperture 20 and/or the access aperture 36. Once the socket portion 64 is engaged with the spark plug 50, by then rotating the socket portion 64 (generally clockwise, and such as through use of the handle 62 or a motorized tool), the spark plug 50 can be threaded into engagement with the spark plug aperture 20 defined by the forward valve cover 18. The end 66 of the socket wrench 60 can then be removed from the access aperture 36. Inspection of the spark plug 50 can be achieved by following the removal method described above, inspecting the spark plug 50, and then following the installation method described above. Replacement of the spark plug 50 can be achieved by following the removal method described above with respect to an original spark plug (e.g., often termed an “old” or “bad” spark plug), and then following the installation method described above with respect to a different spark plug (e.g., often termed a “new” or “good” spark plug).
While the foregoing makes reference to the motorcycle 10 of
The foregoing description of embodiments and examples has been presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the forms described. Numerous modifications are possible in light of the above teachings. Some of those modifications have been discussed and others will be understood by those skilled in the art. The embodiments were chosen and described in order to best illustrate certain principles and various embodiments as are suited to the particular use contemplated. The scope of the invention is, of course, not limited to the examples or embodiments set forth herein, but can be employed in any number of applications and equivalent devices by those of ordinary skill in the art. Rather it is hereby intended the scope of the invention be defined by the claims appended hereto.