Figure 2-27. The Rotary Engine

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Figure 2-26. Power Delivery in One-, Four-, Six-, and Eight-Cylinder Engines

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TM-9-8000 Principles of Automotive Vehicles Manual

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Figure 2-28. Figure 2-29 . Speed Relationship of Rotor to Eccentric Shaft .

TM 9-8000

Figure 2-27. The Rotary Engine

b. Operation(Fig. 2-28).

shaft so that it only goes around once for every three

turns of the eccentric shaft. This works out to one power

stroke to every eccentric shaft rotation. This is illustrated

(1) Intake. Looking at the rotor face (1), note

in figure 2-29.

that as it moves by the intake port, the space between it

and the rotor housing increases. This causes a fuel and

c. Advantages. If the eccentric shaft receives one

air mixture to be drawn in through the intake port.

power stroke for each eccentric shaft revolution, then the

rotor is equivalent to a two-piston, four-stroke cycle

(2) Compression.

As the rotor face (1)

engine. As a result, the engine is a much more compact

continues around the inside of the housing, it moves

unit. The absence of the reciprocating parts and the

away from the intake port. As it moves away, the space

absence of the valve train serve to help the engine attain

between the rotor face and the housing decreases. This

higher speeds safely, giving it more flexibility in usage.

compresses the fuel and air mixture.

The absence of these parts also serves to make this

(3) Power. When the rotor face (1) reaches the

engine smoother than its piston engine counterpart.

point where it is compressing the fuel and air mixture the

d. Disadvantages. A large percentage of the

tightest, the spark plug ignites the mixture and pushes

the rotor around in the housing.

combustion area is exposed to the intake charge

because of the rotary engine design. This large surface

(4) Exhaust. As the rotor face (1) continues

area, when wetted with fuel during intake and ignited at

around, it becomes exposed to the exhaust port. At this

the beginning of the power stroke, produces dirty

point, the space decreases in size again. As the space

combustion. While rubbing against the housing, the

size decreases, it causes the burnt gases to be pushed

seals on each corner of the triangular-shaped rotor are

out through the exhaust port. This is a continuous cycle.

subjected to high rotational speeds. This results in rapid

seal wear and is of a major concern to manufacturers.

(5) Three Rotor Faces. Note the three rotor

The many irregular curves in the design make the

faces (1, 2, and 3) illustrated in figure 2-28. Each one of

machining processes of the rotary engine difficult. The

these faces goes through its own complete operating

rotary engine also is hard to modify for development

cycle every time the rotor goes around In the housing.

purposes. The rotary engine has not had a major impact

The rotor is geared to the eccentric

on automotive engine development. Lack of research

and development have kept it from realizing its full

potential.

TA233328

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