Power plants – Internal combustion engine with treatment or handling of... – Pulsed – timed – tuned or resonating exhaust
Reexamination Certificate
2000-10-19
2002-05-07
Denion, Thomas (Department: 3748)
Power plants
Internal combustion engine with treatment or handling of...
Pulsed, timed, tuned or resonating exhaust
C060S313000, C060S314000, C060S322000, C060S324000, C181S228000
Reexamination Certificate
active
06381956
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention pertains to internal combustion engines, and more particularly to apparatus for conducting exhaust products from an engine cylinder to the atmosphere.
2. Description of the Prior Art
For two reasons, the design of internal combustion engines requires that much attention be paid to their exhaust systems. First, especially for two-stroke engines, the performance of an engine is greatly affected by the exhaust system. Second, the exhaust from an engine is very noisy and must be silenced. To some degree, the desirable characteristics of high performance and low noise are incompatible with each other.
Exhaust systems for internal combustion engines are very complicated, both because of the dynamics of the gasses and because of space constraints. Many small two-stroke industrial engines have severe limitations on the amount of space available for the exhaust systems. In those cases, the available space is usually taken up almost entirely by silencing components, often to the detriment of engine performance.
On the other hand, high performance engines such as are used on motorcycles and snowmobiles usually have more space available for the exhaust systems. Even with high performance engines, however, it is a difficult task to design a performance enhancing, quiet, and aesthetically pleasing exhaust system.
It is well known that pressure waves of the exhaust gasses reflect at a change in cross section of an exhaust pipe. It is further known to take advantage of the pressure wave reflections to tune the exhaust system in a manner that enhances engine performance. Particularly, exhaust systems are designed such that exhaust pulses from the engine are reflected cyclically back to the engine exhaust port. For a portion of each cycle, the exhaust pulse is reflected as an expansion wave that assists in scavaging the engine cylinder. For another portion of the cycle, the exhaust pulse is reflected back to the exhaust port a s a compression wave that serves to hold the fresh charge in the cylinder.
Another complicating factor in the design of exhaust systems is that a particular design is optimum for only a narrow range of operating speeds. Accordingly, an exhaust system that is tuned for a particular engine and speed will not be the optimum system for the same engine at a different speed. To date, size and space limitations have made it impractical to equip an engine with an exhaust system that is optimum for more than one operating speed.
The design of two-stroke engines is discussed at length in the books “The Basic Design of Two-Stroke Engines” and “Design and Simulation of Two-Stroke Engines”, both by Gordon P. Blair and published by the Society of Automotive Engineers in 1990 and 1996, respectively. Both books include the scientific and engineering aspects of two-stroke engines, including their exhaust systems.
The book “Four-Stroke Performance Tuning” by A. Graham Bell, Haynes Publishing, copyright 1991, includes a chapter on exhaust systems. V. P. Engineering Inc. & Audie Technology Inc. have developed computer programs that simulate exhaust dynamics in four-stroke engines. One such program is entitled “Dynomation Four Cycle Wave Action Simulator,”copyright 1994.
A common characteristic of all known literature on the topic of internal combustion engine exhaust systems is that the cross sections of the exhaust passages are described as being round for their full lengths. For example, the above-mentioned book by Bell gives formulas for the size of exhaust pipes that are based on pipe diameters. In practice, because of manufacturing limitations, the cross sectional shapes of some exhaust pipes had been slightly elliptical in cross section. Although elliptical exhaust passages were sometimes tolerated by engine manufacturers, the consensus was that they compromised overall engine performance.
To tune an exhaust system for performance, the desired engine speed was chosen. An exhaust pipe was designed that had discrete sections of different lengths and diameters chosen to suit the particular engine and operating speed. The diameters of the various sections may be constant or variable along their lengths, i.e., the sections may be cylindrical or conical.
FIGS. 1 and 2
show an ideal prior tuned exhaust pipe
1
for a single-cylinder four-stroke engine
2
. The exhaust pipe
1
is duplicated for each cylinder of a multi-cylinder engine. The exhaust pipe has a header
3
and a megaphone section
5
, both of which are circular in cross section and symmetrical about a straight longitudinal axis
7
. Exhaust pulses from the engine
2
are reflected back as expansion waves in the megaphone section
5
.
FIGS. 3 and 4
show a typical prior exhaust pipe
9
tuned for performance for a two-stroke engine
10
. The expansion pipe
9
has a header
11
at the inlet end and a stinger
12
at the outlet end. Between the header
11
and the stinger
12
are intermediate sections
13
,
14
,
15
,
16
, and
17
. In the particular exhaust
9
pipe shown, pulses from the engine
10
are reflected back as expansion waves within the sections
13
,
14
, and
15
, and as compression waves in the section
17
.
In practice, the ideal exhaust pipes
1
and
9
can rarely, if ever, be used. That is because space considerations on the vehicle propelled by the engine, such as a snowmobile or motorcycle, usually dictate that the pipe be curved in some fashion, often in a U-shape. U.S. Pat. No. 4,285,109 describes a method suitable for manufacturing a curved exhaust pipe.
Another factor that complicates the design of engine exhaust systems is the fact that most engines have more than one cylinder and consequently more than one exhaust pipe. The problem of finding space on a vehicle for multiple exhaust pipes can be difficult to solve, particularly when aesthetics are important. The envelope of multiple properly tuned exhaust pipes occupies a significant amount of space on the vehicle.
FIGS. 5 and 6
show a typical prior tuned exhaust system
19
for a three-cylinder two-stroke engine. It will be appreciated that th ere is considerable wasted space within the three-lobe envelope
18
of the three individual exhaust pipes
22
of the system
19
.
SUMMARY OF THE INVENTION
In accordance with the present invention, a tuned exhaust system for multi-cylinder internal combustion engines is provided that is more compact and economical than prior systems. This is accomplished by constructing the exhaust system with shared walls between exhaust passages.
The invention is based on my discovery that it is the area, not the shape, of the cross sections along the engine exhaust passage that is the determining factor in exhaust system performance. All known prior art in the field of exhaust systems tuned for performance teaches circular cross sections for all the sections of exhaust pipes. My discovery, on the other hand, is an exhaust system tuned for performance in which the pipe sections corresponding to the respective sections of a comparable prior pipe have the same areas as the prior pipe but have non-circular cross sections. Further, the cross sections according to my invention do not have to be symmetrical about any longitudinal axis through the cross section.
The ability to use non-circular cross sections allows great flexibility in designing exhaust systems. For example, it is now possible to use a shared wall between two passages inside a single pipe. Specifically, an exhaust pipe for a three-cylinder two-stroke engine can have a circular outer wall of varying diameters at different sections along its length. Three plates are placed radially inside the outer wall so as to divide the interior into three sector-shaped passages. Each of the passages has a shared wall with each of the other two passages. Consequently, there is a significant savings in material with the exhaust system of the invention compared with a comparable prior system of three individual pipes. In some applications, it may be desirable to have an outer wall that is not round. The invent
Cayen Donald
Tran Binh
LandOfFree
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