0338275 MUFFLER, Exhaust EVINRUDE
BE10EEDD, BE10RELEUS, BE15EEDS, BE15RELEUC, E10EECC, E10EEOE, E10EERB, E10EETM, E15EECR, E15EEOD, E15EERE, E15EETB, E15WREES, E15WRLSIR, E15WRLSSC, HE15KCF, HE15KCLN, HE15KCLO, SE10RPB, SE10RPLT, SE10RPLY, SE15BAEEM, SE15BASIR, SE15BASSB
MUFFLER
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BRP EVINRUDE entire parts catalog list:
- EXHAUST HOUSING » 0338275
BE15EEDS, BE15ELEDS, BE15REDS, BE15RLEDS, E15EEDS, E15ELEDS, E15REDS, E15RELEDS, E15RLEDS, SE15BAEDC 1996
BE15RELEUC, E15EEUC, E15ELEUC, E15RELEUC, E15REUC, E15RLEUC, SE15BAEUR 1997
E10EECC, E10ELECC, E10RECC, E10RELECC, E10RLECC, E10SELECC 1998
E10EEOE, E10ELEOE, E10RELEOE, E10REOE, E10RLEOE, E10SELEOE 1995
E10EERB, E10ELERB, E10RELERB, E10RERB, E10RLERB, E10SELERB 1994
E10EETM, E10ELETM, E10RELETM, E10RETM, E10RLETM, E10SELETM, TE10RELETM 1993
E15EECR, E15ELECR, E15RECR, E15RELECR, E15RLECR, SE15BAECA 1998
E15EEOD, E15ELEOD, E15RELEOD, E15REOD, E15RLEOD 1995
E15EERE, E15ELERE, E15RELERE, E15RERE, E15RLERE 1994
E15EETB, E15ELETB, E15RELETB, E15RETB, E15RLETB 1993
E15WREES, E15WRLEES 1999
E15WRLSIR, E15WRSIR 2001
E15WRLSSC, E15WRSSC 2000
HE15KCF, HE15KCLF, HE15RPLW, HE15RPW, SE15RPLW, SE15RPW 1997
HE15KCLN, HE15KCN, SE15RPG, SE15RPLG 1996
HE15KCLO, HE15KCO, SE15RPC, SE15RPLC 1998
SE10RPB, SE10RPLB 1996
SE10RPLT, SE10RPT 1997
SE10RPLY, SE10RPY 1998
SE15BAEEM 1999
SE15BASIR 2001
SE15BASSB 2000
Information:
Illustration 1 g00520141
Typical governor (A) Pin (B) Shims (1) Governor drive gear (2) Shaft (3) Flyweight carrier (4) Flyweights (5) Riser (6) Low idle spring (7) High idle spring (8) ShaftThe governor senses engine speed from the camshaft through governor drive gear (1). Shaft (2) connects governor drive gear (1) to flyweight carrier (3). As flyweights (4) rotate, a centrifugal force is created. This force is converted to linear motion, moving riser (5) toward low idle spring (6) and high idle spring (7) when the engine speed increases. At the low idle speed, low idle spring (6) exerts an opposite force on riser (5). At higher engine speeds, high idle spring (7) also becomes compressed. When the engine speed decreases, springs (6) and (7) move riser (5) toward flyweights (4). Thus, there is a unique riser position for every engine speed. Because the riser has a unique position for every engine speed, this is a full range rpm governor. The riser position provides the speed position for the rest of the governor.Note: Pin (A), which is located on riser lever (18) engages in riser (5).
Illustration 2 g00520177
Governor Schematic (A) Pin (C) FUEL ON output to fuel rack (D) FUEL ON input from operator (E) Speed increase input from engine (9) Governor output shaft (10) Limit lever setscrew (11) Control lever (12) Fulcrum lever (13) Pivot lever (14) Limit lever (15) Torque cam lever (16) Torque cam (17) Pivot shaft (18) Riser leverAs riser (5) moves, riser lever (18) causes pivot shaft (17) to rotate. Pivot lever (13) rotates with pivot shaft (17). Thus, pivot lever (13) will also have a unique position for every engine speed.The operator selects the desired engine speed with control lever (11). Control lever (11) and governor output shaft (9) are connected by fulcrum lever (12), which is connected to pivot lever (13). This connection provides the operator with direct communication to the governor output. As the engine speed changes, fulcrum lever (12) moves in order to change the output of the governor to a new stable condition. The same condition occurs when the operator changes the position of control lever (11). This process is shown in the following illustrations.
Illustration 3 g00520296
The engine is operating in a stable condition at low idle. (F) Increase of engine speed (G) More fuel (11) Control lever (12) Fulcrum lever (17) Pivot shaft (18) Riser lever (19) Path of fulcrum pin (20) Fulcrum pin (21) Low idle stop
Illustration 4 g00520338
An increase in the input position toward high idle causes an increase in the amount of fuel. (F) Increase of engine speed (G) More fuel (11) Control lever (12) Fulcrum lever (17) Pivot shaft (18) Riser lever (19) Path of fulcrum pin (20) Fulcrum pin (22) High idle stop
Illustration 5 g00520339
Engine speed becomes stable at high idle resulting in a new riser position which decreases the amount of fuel. (F) Increase of engine speed (G) More fuel (11) Control lever (12) Fulcrum lever (17) Pivot shaft (18) Riser lever (19) Path of fulcrum pin (20) Fulcrum pin (22) High idle stop
Illustration 6 g00520341
As the engine load is increasing and the engine speed is decreasing, the riser is seeking a new position which causes the fuel to increase. (F) Increase of engine speed (G) More fuel (11) Control lever (12) Fulcrum lever (17) Pivot shaft (18) Riser lever (19) Path of fulcrum pin (20) Fulcrum pin (22) High idle stop