Mechanical Fuel Injection B2 Resource

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Mechanical fuel injection Bosch K Jetronic Bosch K Jetronic. The Fuel Pump, This type of high pressure fuel pump is denoted as a roller cell pump with the fuel entering the pump and being compressed by. rotating cells that force it through the pump at high pressure The pump is capable of producing a pressure of 8 bar 120 psi with a. delivery rate of approximately 4 to 5 litres per minute. Within the pump is a pressure relief valve that lifts off its seat at 8 bar to arrest the pressure should the filter fuel lines or other. eventualities cause it to become obstructed The other end of the pump output is home to a non return valve that when the. voltage to the pump is removed closes the return and maintains pressure within the system as illustrated in figure 6 1. The normal operating pressure within this system is approximately 5 bar 75 psi and at this pressure the current draw on the pump. is 5 to 8 amps Fuel passing across the fuel pump s armature will be subjected to sparks and arcing this on the surface appears. quite dangerous but the absence of oxygen means that there will not be an explosion. Some systems operate a small lift pump situated inside the tank The supply voltage to the pump in the majority of cases is 12. Some systems do however operate at 6 volts and see a higher voltage under cranking to pressurise the system faster This. voltage reduction is made possible by using a ballast resistor which is then by passed when cranking. The voltage supply to the pump is via the fuel pump relay. Figure 6 1 shows a cross section of an electric fuel pump. The Fuel Pump Relay, This type of relay is known as a tachometric relay which means that it only responds and sends a voltage to the pump when the. engine is cranking or running The relay receives a signal from the negative terminal of the coil this confirms that the engine is. This type of relay is used as a safety device if the vehicle is involved in an accident when there is a possibility of a fuel line being. fractured the engine will stop due to a lack of fuel the signal from the coil stops and the supply voltage to the pump is removed. Typical fuel pump relay connections are as follows. Terminal Number Connection,30 Permanent battery live. http www auto solve com mech inj htm 2 av 10 2005 03 04 14 47 32. Mechanical fuel injection Bosch K Jetronic Bosch K Jetronic. 1 or 31b Coil negative,15 Switched Ignition on voltage. 87 Output to fuel pump, NOTE while the connections are correct for certain vehicles the appropriate pins must be identified before testing.
Certain relays also perform a pressurisation purge by allowing the pump to run for a second before shutting off to prime. the system, The location of the relay will vary between motor manufacturers and is in no set position. When fault finding or fuel pressure testing it will be necessary to have the pump running when the engine is stationary this can be. achieved by bridging terminals 30 and 87 with a small length of wire For safety reasons it is good practice to insert a ten amp fuse. into the bridging wire, If the engine runs for a while but then stops failing to restart for a few minutes feel the relay to see if it is getting warm as this. could be the faulty area Bridging with the fused link wire will confirm the problem. CAUTION do not be tempted to by pass the relay by bridging between terminal 15 switched live and 87 fuel pump as. this will start the car but is potentially dangerous. The Accumulator, The accumulator is the first of the components in the fuel system after the pump This unit has an important role to fill in the. operation of the Bosch K Jetronic system, Its first job is to help smooth out any pulses in the flow of the fuel this is achieved by passing the fuel through a series of baffles. and into a chamber giving it slight capacitance and a much smother flow Its other and possibly more important role is to maintain. pressure within the system when the fuel pump has been switched off this is achieved by the accumulator spring and diaphragm. pushing against the fuel, For the duration that the engine is running the diaphragm will be against its stop within the spring s chamber When the engine is.
stopped and all of the non return valves close the spring pressure against the diaphragm will maintain the residual or holding. pressure and overcome any slight seepage, Within the data books for this system it is shown that the critical time for maintaining these pressures is between 5 and 20. minutes After a journey when the engine is switched off the under bonnet temperature increases causing the fuel in the lines to. heat and it attempts to evaporate, Maintaining the pressure eliminates this problem and ensures a clean start when the vehicle has been standing with a hot engine. Figure 6 2 shows an accumulator full of fuel, http www auto solve com mech inj htm 3 av 10 2005 03 04 14 47 32. Mechanical fuel injection Bosch K Jetronic Bosch K Jetronic. The Fuel Filter, Due to the extremely fine tolerances within the Bosch K Jetronic system it is vital that the filter has excellent filtration properties. without impeding the flow on the fuel The filter is a large metal canister with different fittings at either end to avoid the unit being. installed incorrectly and compromising its efficiency A visual inspection of the filter is not possible but the current draw of the fuel. pump measured in amps can indicate a blocked or obscured filter. The current can be recorded by inserting a multimeter in series with the circuit the usual place to do this is to bridge the relay s. terminal block If however the relay is not easily accessible the fuse to the pump can be removed as this also provide a convenient. place to measure the current, A typical current draw will generally be between 5 to 8 amps The current recorded will be lower if the systems pressure is less.
than the quoted specifications and higher if the flow of fuel is restricted in any way for example a blocked filter or a damaged fuel. Figure 6 3 shows an example fuel filter,Systems Pressure. This is the pressure that is seen within the system between the fuel pump and the metering head This pressure is determined by. the primary pressure regulator situated within the metering head. When the required pressure is obtained the plunger within the regulator lifts off its seat and excess fuel is returned to the tank. This system due to the nature of its operation will automatically compensate for different fuel demands under different conditions. For example if the fuel requirement is low at engine idle the plunger will lift and return a greater volume of fuel back to the tank. than when the demand is higher when a smaller amount of fuel is returned. When the engine is switched off the fuel pump relay looses the coil negative signals that energise it and the voltage to the pump is. removed this subsequent loss of pressure will cause the primary pressure regulator to close This action subsequently blocks the. return flow to the tank and helps the accumulator to maintain pressure in the system. The systems pressure is determined by the tension of the spring reacting against the plunger if a higher pressure is required. small shims can be placed behind the spring changing it s effective length and increasing the pressure A shim of approximately 2. mm will increase the pressure by about 10 psi, Located within the pressure regulator is the transfer valve This component is operated by the movement of the plunger and opens. as the plunger moves off it s seat The transfer valve s function is to block the return flow of fuel from the warm up regulator back to. the tank also helping to maintain residual or holding pressure. http www auto solve com mech inj htm 4 av 10 2005 03 04 14 47 32. Mechanical fuel injection Bosch K Jetronic Bosch K Jetronic. Figure 6 4 shows the fuel distributor primary pressure regulator and air flow sensor from the Bosch K Jetronic system. The following table is a guide to the fuel paths marked by each blue arrow in figure 6 4. A To fuel injectors B To warm up regulator,C From warm up regulator D To cold start injector. E From fuel filter F Return to fuel tank,The Airflow Sensor. The airflow sensor in most cases is located on the air filter housing and is responsible for measuring the amount of air entering. the engine The sensor housing is conical in shape into which the airflow sensor plate is fitted The airflow sensor plate lifts as the. throttle is opened by the incoming air, The amount of lift is proportional to the volume of air entering the engine The shape and angle of the cone will determine this ratio.
A neutral plate position is normally level with the bottom of the cone this is adjustable by bending a small clip spring that acts as. a stop at the bottom of the unit The purpose of this spring is to allow the flap to move beyond its neutral position to allow excessive. pressure to escape if the engine was to backfire passing a large volume of air back into the air filter housing. If the system did not have this facility the pressure could split or blow off the rubber air trunking Any splits or ill fitting air hoses that. allow unmonitored air into the engine require rectification. As the airflow lifts the sensor plate this subsequencially lifts the control plunger the higher the lift the greater the amount of fuel. delivered to the injectors, To adjust the fuel mixture a small 3 mm Allen screw is located within the airflow sensor this alters the relationship between the. sensor arm and the control plunger Turning the screw clockwise enriches the mixture and vice versa It should be noted that the. screw should be turned in very small increments and the Allen key should be removed before the engine speed is raised. NOTE Failure to remove the Allen key before starting the engine can result in damage to the airflow sensing unit. http www auto solve com mech inj htm 5 av 10 2005 03 04 14 47 32. Mechanical fuel injection Bosch K Jetronic Bosch K Jetronic. The Fuel Distribution Unit, This unit delivers the correct amount of fuel to the engine via the injectors referencing to the airflow sensor plate height As the. sensor plate is lifted with inducted air volume the control plunger is lifted proportionately exposing small slits within the fuel. distributor s barrel assembly The barrel assembly has a series one for each cylinder of small slits that are machined into the. barrel and it is through these openings that the fuel passes en route to the injector. The width of these metered slits is only 0 2 mm across and it is this dimension together with the plunger height that determines. the fuel delivery rate to the injectors, At low engine speed the air volume into the engine will be minimal this will only raise the plunger a small amount giving the. requisite quantity of fuel for these engine conditions As the throttle is opened and fuel demand is higher the plate raises which in. turn lifts the plunger and a higher volume of fuel is delivered to the engine to match the air The lift on the plunger will be. proportionate to the air volume this will however be exaggerated during the warm up period when additional fuel is required by. reducing the pressure acting onto the top of the control plunger. This pressure is called the control pressure as it controls the lift of the plunger under different operating temperatures and is. determined by the warm up regulator,The Warm up Regulator. This simple device is responsible for controlling the amount of fuel delivered to the engine during it s warm up period The pressure. acting upon the top of the control plunger varies depending on the engine temperature and provides an effective method of. enrichment, The control pressure is tapped off from the primary pressure circuit in the metering head s lower chamber through a tiny restrictive.
hole which gives it the ability to differentiate between the two pressures A flexible pipe then connects the control plunger gallery to. the warm up regulator and returns back to the metering head to a connection next to the primary pressure regulator s transfer. valve This valve is in the circuit to close the fuel from the control circuit when the engine is off avoiding the total loss of system. pressure while the engine is stationary, The internals of the warm up regulator are quite simple comprising an inlet and outlet port a stainless steel shim a bi metalic. heated strip and a spring, The input to the warm up regulator flows into a small chamber in the top of the unit its return is through a small drilling and back to. the metering head By controlling this return flow it will cause a change in pressure acting on the top of the control plunger With a. cold engine the flow must be fairly free giving it a lower pressure This will allow a higher lift of the plunger which in turn will enrich. the mixture under these conditions The free flow is obtained by the internal bi metalic strip exerting a downward pressure on the. spring which decreases the pressure acting upon the shim this lower force allows the fuel to flow almost uninterrupted. As the bi metalic strip is heated by either it s heater element or natural heat soak from the engine the downward pressure acting. on the spring is gradually decreased increasing the force of the spring which in turn increases the control pressure. Typical cold engine control pressure will be as low as 1 0 bar increasing over approx 10 minutes to around 3 5 bar Some warm. up regulators have a vacuum connection that will sense a drop in vacuum and lower the control pressure during these acceleration. Mechanical fuel injection Bosch K Jetronic Bosch K Jetronic Fig 6 4 Figure 6 4 shows the fuel distributor primary pressure regulator and air flow sensor from the Bosch K Jetronic system The following table is a guide to the fuel paths marked by each blue arrow in figure 6 4 A To fuel injectors B To warm up regulator

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