2888256 - 1043B gpl fuel circuit pipes (GPOWER)
CONSTRUCTION FEATURES
CONSTRUCTION FEATURES
The pressure regulator unit is fitted to the right side of the engine bay. This device acts as a link between the tank and the LPG injectors. it includes the true pressure regulator (1), a cut-off or arrest solenoid (2) and an LPG pressure sensor (3). Four hydraulic attachments on the regulation unit are used for connection of high-pressure LPG pipes (4) with adjustable fittings (banjo type). A system seal check valve (5) is present, which also drains the section of pipe between regulator and tank (on the return line). Do not touch the valve for reasons other than those listed above.The adjustable fitting (banjo) comes with a double sealing ring. It is essential to ensure that these rings are undamaged and correctly positioned following service to prevent LPG leaks. the rings must therefore be replaced after any maintenance operation. These fittings must be correctly fitted to ensure that the flow of LPG in the system is unaltered; the regulator allows LPG to flow in a single direction. To avoid errors, the flow direction must respect the IN and OUT indications shown in the figure. |
It is forbidden to dismantle the regulation unit. The whole unit must be changed even if only one component malfunction. |
When in operation, the pressure regulator
unit takes up an intermediate position between tank and injectors. More specifically, the device ensures that
the LPG pressure in the delivery circuit (section including injectors)
stays at a constant value of +5 bars in relation to the pressure
in the tank. The regulator contains a solenoid (2) that
is controlled by the LPG electronic management unit. The solenoid on the tank opens when this
valve opens. The LPG is therefore driven by the action of the pump
submerged in the tank, through pipe (6), through the arrest valve
and on to the injectors through pipe (7). Excess gas unused by the injectors flows
through the return pipe (8) back to the regulator. Before entering,
its pressure is checked by sensor (3). The gas now enters the actual pressure regulator
(1). This component consists of a chamber divided
into two parts separated by a diaphragm (9). Tank pressure acts on the upper part via
a control mechanism. A spring (10) also applies pressure to the
diaphragm.Excess LPG from the injectors flows through
ducts in the lower chamber and apply pressure to the inner surface
of the diaphragm. As long as the pressure in the injector
reutrn branch is lower than the return branch to the tank, the diaphragm
is held closed by the spring and the pressure difference. In this
case, LPG does not return to the tank. When LPG in the return branch
from the injectors exercises a pressure able to overcome the force
of the control spring (10) (0.5 - 1 bars), it flows through pipe section
(11) into the tank. The pump maintains LPG pressure in the delivery
branch at a value of +5 bars in relation to the tank. This pressure
value (+5) is sufficient to calculate the correct injection time.