|
Compression Ratio control |
 |
The
MCE-5 VCR engine block responds to all requested
features for Compression Ratio control of
future VCR engines:
 |
1) |
A
wide range and continuous Compression
Ratio control from 7:1 to 20:1; |
|
|
|
|
2) |
A
high reactivity CR control (100ms and
lower to move from CR max to CR min); |
|
|
|
|
3) |
A
cylinder per cylinder Compression Ratio
adjustment; |
|
|
|
|
4) |
A
high precision control (about 0.01 mm); |
|
|
|
|
5) |
A
low energy consuming actuation. |
|
 |
 |
The
effectiveness of MCE-5 Compression Ratio
actuators partly comes from an exclusive
technical approach: control jacks use engine
inertia forces and gases pressure forces
to move from one position to another.
Two
valves are maintained open or closed by
a control stick to transfer oil from the
upper chamber to the lower chamber of the
jack or inversely (to move upwards or downwards),
making the MCE-5 actuators operating as
hydraulic ratchets.
|
As a result, the energy consumption induced
by the MCE-5 Compression Ratio control is reduced
to a minimum. In addition, MCE-5 control
jacks assume all required functions for:
|
a) |
Keeping
the current Compression Ratio whatever the
operating conditions; |
|
|
|
|
b) |
Slowing
down when reaching the targeted position to
avoid shocks and noise emissions; |
|
|
|
|
c) |
Automatically
compensating for possible oil leaks to maintain
the requested position; |
|
|
|
|
d) |
Protecting
MCE-5 gear teeth against overload (by-pass). |
The
MCE-5 hydraulic actuators do not require electrohydraulic
valves or any fragile devices that are temperature
or vibrations sensitive. The Compression Ratio position
is automatically maintained even if the electric
motor is out of order.
As they operate as ball joints, the pistons of MCE-5
actuators also have a major role to provide the
best contact distribution on the entire surface
of gear wheel and racks teeth.
(see: VCR
engines’ requirements for mass-production:
Compression Ratio control)
|
21 avenue Georges Pompidou 
