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#21
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"TeGGeR®" > wrote
> "Elle" > wrote > > Here's my impression: > > Highly technically on larger engines, the wrist pin links a connecting > > rod to a piston rod. Both rods would be present on say large > > industrial diesel engines, where the side thrust on the cylinder walls > > would otherwise be too great. The piston rod on such engines moves > > strictly linearly (hence no notable side thrust). The connecting rod > > has one end that revolves (attached to the crankshaft) and the other > > end that moves strictly linearly. > > > > Something like...this? > http://www.oldengine.org/members/die...hnical/TS3.htm > (schematics are at the bottom) Whoa, that's way more complicated and a-typical than what I have in mind. Also, I doubt truck engines are big enough to have a need to reduce the cylinder wall side thrust and so have a connecting rod _and_ piston rod, yada. (What's shown at the link above doesn't really deal with side thrust, anyway. The piston rod doesn't move strictly linearly.) I'm thinking of diesel engines designed like this nearly 8000 horsepower (per cylinder) big bertha (see top drawing): http://www.bath.ac.uk/~ccsshb/12cyl/ Granted this is obscenely big, but one can find smaller diesels (though probably not car or truck size) with the same connecting rod, wrist pin, piston rod, etc. set up. Many large steam engines had/have this set up, too. Or see http://www.marinediesels.info/ for an animation of a diesel engine with a connecting rod and piston rod. Though I see this site calls any single rod from piston head to crankshaft (on diesel engines with a trunk piston) a connecting rod, too. So maybe I have it wrong. I dunno. Lot of interchanging going on. Lloyds casualty, the big ship insurer, says I have it right, at least as far as ship engine vocabulary goes. http://www.lloydscasualty.com/mt/sea...ary.jsp?init=C Trivia... |
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#22
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"Elle" > wrote in
ink.net: > "TeGGeR®" > wrote >> "Elle" > wrote >> > Here's my impression: >> > Highly technically on larger engines, the wrist pin links a >> > connecting rod to a piston rod. Both rods would be present on say >> > large industrial diesel engines, where the side thrust on the >> > cylinder walls would otherwise be too great. The piston rod on such >> > engines moves strictly linearly (hence no notable side thrust). The >> > connecting rod has one end that revolves (attached to the >> > crankshaft) and the other end that moves strictly linearly. >> >> >> >> Something like...this? >> http://www.oldengine.org/members/die...hnical/TS3.htm >> (schematics are at the bottom) > > Whoa, that's way more complicated and a-typical than what I have in > mind. Also, I doubt truck engines are big enough to have a need to > reduce the cylinder wall side thrust and so have a connecting rod > _and_ piston rod, yada. (What's shown at the link above doesn't really > deal with side thrust, anyway. The piston rod doesn't move strictly > linearly.) > > I'm thinking of diesel engines designed like this nearly 8000 > horsepower (per cylinder) big bertha (see top drawing): > > http://www.bath.ac.uk/~ccsshb/12cyl/ <speechless> Jeez. > > Granted this is obscenely big, but one can find smaller diesels > (though probably not car or truck size) with the same connecting rod, > wrist pin, piston rod, etc. set up. Many large steam engines had/have > this set up, too. > > Or see http://www.marinediesels.info/ for an animation of a diesel > engine with a connecting rod and piston rod. Though I see this site > calls any single rod from piston head to crankshaft (on diesel engines > with a trunk piston) a connecting rod, too. So maybe I have it wrong. > I dunno. Lot of interchanging going on. Lloyds casualty, the big ship > insurer, says I have it right, at least as far as ship engine > vocabulary goes. > http://www.lloydscasualty.com/mt/sea...ary.jsp?init=C I'm finding this on that page: "connecting rod: a rod connecting lower end of piston rod with crank pin of a reciprocating diesel engine" and: "crosshead: a rectangular block which connects and acts as a hinge between the lower end of piston rod and the upper end of connecting rod in an engine; at its athwartship faces, it carries guide shoes which transmit the side thrust of the connecting rod to the guides on the columns" They're making a clear distinction between one and the other in both quotes. In all my years I've never heard the "connecting rod" ever referred to by any other name (other than contracted as "conrod". -- TeGGeR® The Unofficial Honda/Acura FAQ www.tegger.com/hondafaq/ |
#23
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"TeGGeR®" > wrote
E > > http://www.lloydscasualty.com/mt/sea...ary.jsp?init=C > > > I'm finding this on that page: > "connecting rod: a rod connecting lower end of piston rod with crank pin of > a reciprocating diesel engine" Yes, NOT 'a rod connecting the piston head to the crank pin.' Such a single rod does not exist for very large (ship size, say) engines. > and: > "crosshead: a rectangular block which connects and acts as a hinge between > the lower end of piston rod and the upper end of connecting rod in an > engine; at its athwartship faces, it carries guide shoes which transmit the > side thrust of the connecting rod to the guides on the columns" > > They're making a clear distinction between one and the other in both > quotes. I think we're having a miscommunication: Before googling yesterday, I felt there was a clear distinction between the two. Now I see "connecting rod" and "piston rod" used interchangeably a lot, particularly at auto sites, with the term "connecting rod" appearing to predominate as the (only) rod said to connect the piston head to the crankshaft, on auto engines. > In all my years I've never heard the "connecting rod" ever referred to by > any other name (other than contracted as "conrod". Which is consistent with many auto sites on the web. Like I said, for my auto repairs, I plan to call it what Chilton's and the parts site call it: "Connecting rod." |
#24
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Elle wrote:
> "TeGGeR®" > wrote > >>"Elle" > wrote >> >>>Here's my impression: >>>Highly technically on larger engines, the wrist pin links a connecting >>>rod to a piston rod. Both rods would be present on say large >>>industrial diesel engines, where the side thrust on the cylinder walls >>>would otherwise be too great. The piston rod on such engines moves >>>strictly linearly (hence no notable side thrust). The connecting rod >>>has one end that revolves (attached to the crankshaft) and the other >>>end that moves strictly linearly. >> >> >> >>Something like...this? >>http://www.oldengine.org/members/die...hnical/TS3.htm >>(schematics are at the bottom) > > > Whoa, that's way more complicated and a-typical than what I have in mind. > Also, I doubt truck engines are big enough to have a need to reduce the > cylinder wall side thrust and so have a connecting rod _and_ piston rod, > yada. (What's shown at the link above doesn't really deal with side thrust, > anyway. The piston rod doesn't move strictly linearly.) > > I'm thinking of diesel engines designed like this nearly 8000 horsepower > (per cylinder) big bertha (see top drawing): > > http://www.bath.ac.uk/~ccsshb/12cyl/ well, that's certainly a big one! interesting claims of thermodynamic efficiency too - surprised me because i thought turbines held the honor of being most efficient. regarding comparison with automotive engines, you are indeed correct, the piston rod is to mitigate side loads/wear on cylinder walls. but note also that these engines are only revving at about 100rpm!!! "excess" mass is not so much of a factor in such an application. > > Granted this is obscenely big, but one can find smaller diesels (though > probably not car or truck size) with the same connecting rod, wrist pin, > piston rod, etc. set up. Many large steam engines had/have this set up, too. > > Or see http://www.marinediesels.info/ for an animation of a diesel engine > with a connecting rod and piston rod. Though I see this site calls any > single rod from piston head to crankshaft (on diesel engines with a trunk > piston) a connecting rod, too. So maybe I have it wrong. I dunno. Lot of > interchanging going on. Lloyds casualty, the big ship insurer, says I have > it right, at least as far as ship engine vocabulary goes. > http://www.lloydscasualty.com/mt/sea...ary.jsp?init=C > > Trivia... > > |
#25
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jim beam > wrote in
: > Elle wrote: >> "TeGGeR®" > wrote >> >>>"Elle" > wrote >>> >>>>Here's my impression: >>>>Highly technically on larger engines, the wrist pin links a >>>>connecting rod to a piston rod. Both rods would be present on say >>>>large industrial diesel engines, where the side thrust on the >>>>cylinder walls would otherwise be too great. The piston rod on such >>>>engines moves strictly linearly (hence no notable side thrust). The >>>>connecting rod has one end that revolves (attached to the >>>>crankshaft) and the other end that moves strictly linearly. >>> >>> >>> >>>Something like...this? >>>http://www.oldengine.org/members/die...hnical/TS3.htm >>>(schematics are at the bottom) >> >> >> Whoa, that's way more complicated and a-typical than what I have in >> mind. Also, I doubt truck engines are big enough to have a need to >> reduce the cylinder wall side thrust and so have a connecting rod >> _and_ piston rod, yada. (What's shown at the link above doesn't >> really deal with side thrust, anyway. The piston rod doesn't move >> strictly linearly.) >> >> I'm thinking of diesel engines designed like this nearly 8000 >> horsepower (per cylinder) big bertha (see top drawing): >> >> http://www.bath.ac.uk/~ccsshb/12cyl/ > > well, that's certainly a big one! interesting claims of thermodynamic > efficiency too - surprised me because i thought turbines held the > honor of being most efficient. > > regarding comparison with automotive engines, you are indeed correct, > the piston rod is to mitigate side loads/wear on cylinder walls. but > note also that these engines are only revving at about 100rpm!!! > "excess" mass is not so much of a factor in such an application. No, but inertia is! With a piston that heavy, side loading forces would be immense. Gad what a big engine. I've never seen anything that large in my life. Those aren't main bearings, they're skateboard half-pipes. -- TeGGeR® The Unofficial Honda/Acura FAQ www.tegger.com/hondafaq/ |
#26
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TeGGeR® wrote:
> jim beam > wrote in > : > > >>Elle wrote: >> >>>"TeGGeR®" > wrote >>> >>> >>>>"Elle" > wrote >>>> >>>> >>>>>Here's my impression: >>>>>Highly technically on larger engines, the wrist pin links a >>>>>connecting rod to a piston rod. Both rods would be present on say >>>>>large industrial diesel engines, where the side thrust on the >>>>>cylinder walls would otherwise be too great. The piston rod on such >>>>>engines moves strictly linearly (hence no notable side thrust). The >>>>>connecting rod has one end that revolves (attached to the >>>>>crankshaft) and the other end that moves strictly linearly. >>>> >>>> >>>> >>>>Something like...this? >>>>http://www.oldengine.org/members/die...hnical/TS3.htm >>>>(schematics are at the bottom) >>> >>> >>>Whoa, that's way more complicated and a-typical than what I have in >>>mind. Also, I doubt truck engines are big enough to have a need to >>>reduce the cylinder wall side thrust and so have a connecting rod >>>_and_ piston rod, yada. (What's shown at the link above doesn't >>>really deal with side thrust, anyway. The piston rod doesn't move >>>strictly linearly.) >>> >>>I'm thinking of diesel engines designed like this nearly 8000 >>>horsepower (per cylinder) big bertha (see top drawing): >>> >>>http://www.bath.ac.uk/~ccsshb/12cyl/ >> >>well, that's certainly a big one! interesting claims of thermodynamic >>efficiency too - surprised me because i thought turbines held the >>honor of being most efficient. >> >>regarding comparison with automotive engines, you are indeed correct, >>the piston rod is to mitigate side loads/wear on cylinder walls. but >>note also that these engines are only revving at about 100rpm!!! >>"excess" mass is not so much of a factor in such an application. > > > > > No, but inertia is! With a piston that heavy, side loading forces would be > immense. side loading being immense, yes. as a result of inertia? no. it's a function of the leverage of the piston against the crank, and that in turn is a function of power. > > Gad what a big engine. I've never seen anything that large in my life. > Those aren't main bearings, they're skateboard half-pipes. > > |
#27
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"TeGGeR®" > wrote
> jim beam > wrote > > Elle wrote: > >> I'm thinking of diesel engines designed like this nearly 8000 > >> horsepower (per cylinder) big bertha (see top drawing): > >> > >> http://www.bath.ac.uk/~ccsshb/12cyl/ > > > > well, that's certainly a big one! interesting claims of thermodynamic > > efficiency too - surprised me because i thought turbines held the > > honor of being most efficient. Steam turbine CYCLE? Gas turbine CYCLE? I figure you're confusing the fact that a Carnot cycle is the most thermal efficient cycle possible. But practical considerations preclude achievement of a pure Carnot cycle. Reheat, regeneration, and cogeneration plant features throw another wrench into the discussion. In short, I don't know what you're trying to say. Thermal efficiencies for power plants with a "turbine" will range from around 20% to 60%, just to give some idea of the numbers. A thermal efficiency of over 50% for a certain diesel engine should NOT surprise, though. > > regarding comparison with automotive engines, you are indeed correct, > > the piston rod is to mitigate side loads/wear on cylinder walls. Yes, well that's not really accurate. It's the connecting rod-crosshead-piston rod _design_ in total that results in strictly linear motion of the rod attached to the piston (whatever one calls this rod), thus minimizing side thrust on the cylinder walls. > > but > > note also that these engines are only revving at about 100rpm!!! > > "excess" mass is not so much of a factor in such an application. I can't parse the above. > No, but inertia is! With a piston that heavy, side loading forces would be > immense. Yes. Horsepower plays a role, too. They're all linked, as I'm sure you can figu For the same RPM, higher horsepower (which develops more torque, of course) leads to more thrust on the cylinder walls than lower horsepower. But a higher horsepower also demands a larger piston head just to absorb the combustion gases rate of expansion yada. > Gad what a big engine. I've never seen anything that large in my life. > Those aren't main bearings, they're skateboard half-pipes. It's really a bit misleading: I don't want people to think the piston rod-crosshead-connecting rod design is only needed for engines with seemingly surreal amounts of horsepower. The typical diesel ship engine is closer to maybe 20,000 hp, and many of these use the same piston rod-crosshead-connecting rod design as the aforementioned, evidently record-breaking, 100,000+ HP Big Bertha. But, yes, with even these, a person can often walk inside the engine cylinders. |
#28
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Looks like *all* the side force normally created by the crank throw is
eliminated. Pretty clever. |
#29
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It's the connecting
rod-crosshead-piston rod _design_ in total that results in strictly linear motion of the rod attached to the piston (whatever one calls this rod), thus minimizing side thrust on the cylinder walls. Looks like all the lateral force normally acting on the piston due to the crank throw is taken up here where the two rods join. Pretty clever. |
#30
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"Misterbeets" > wrote in
oups.com: > Looks like *all* the side force normally created by the crank throw is > eliminated. Pretty clever. > No, it's just been displaced to a location that does not affect oil control or compression. -- TeGGeR® The Unofficial Honda/Acura FAQ www.tegger.com/hondafaq/ |
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