four times cycle in each
room: 1.
intake (admission)
2.
compression
3. explosion
(firing)
4. exhaust
(échappement)
Whatever is the
N
number
of
pairs of pistons, in the setting of a 4 times cycle :
- the engine works with 2N rooms at
variable volumes
- every time 2
consecutive pistons join themselves, one will have either a compression, either an
exhaust
- every time 2
consecutive pistons move away, one will have either an explosion /
détente, either an admission
With the respect of the chronology for each of the rooms of:
1.
the admission 2. the compression 3. The explosion 4. the exhaust
The PRBC motor can also run on 2 times cycle of
type (intake / exhaust) and (compression / explosion / relaxation )
by a vigorous sweep of burnt gases by the fresh air at every
end of explosion and relaxation.
Whatever is the N number
of
pairs of pistons, in the setting of a 2 times cycle :
- the engine works with 2N rooms at
variable volumes
- every time 2
consecutive pistons join themselves, one will have the compression
- Every time 2
consecutive pistons move away, one will have the explosion /
détente
- every time the room is to the maximal volume, the fresh gases fill
the
room while hunting the burnt gases (simultaneous admission and exhaus )
With the respect of the chronology for each of the rooms of:
1.
The admission / exhaust
2. the compression / the explosion /
relaxation
Moreover, the PRBC engine
can run as an air / hydraulic motor, with the following
features for
N pairs of
pistons:
- the engine has 2N rooms at
variable volumes
- every time 2 consecutive pistons move away, one will have
the injection of the pressurized fluid
- every time 2
consecutive pistons join themselves, one will have the exhaust of the
depressurized fluid
With the respect of the chronology for each of the rooms of:
1.
the injection of pressurized fluid
2. exhaust of unpressurized
fluid
The motor PRBC can become
air / hydraulic pumps, with the following features for
N pairs of pistons:
- the engine has 2N rooms at
variable volumes
- every time 2 consecutive pistons move away, one will have
the admission of the fluid under weak pressure
- every time 2
consecutive pistons join themselves, one will have the repression of
fluid under pressure
With the respect of the chronology for each of the rooms of:
1.
admission of fluid under weak pressure
2. repression of fluid under pressure