The present invention relates to a modular fuel tank for a motor vehicle. The fuel tank is used particularly advantageously with motor vehicles equipped with any type of diesel or gasoline combustion engine.
In a manner known per se, a fuel tank comprises a casing produced from a plastic material, in particular by means of a blow-molding process, defining a fuel filling space. A fuel filler pipe proceeds from the tank and terminates near an opening provided in an external panel of the body. A filler flap housing arranged in the opening of the panel is designed to receive the end of the filler pipe. A gauge-pump module makes it possible to provide an indication of the quantity of the contents of the tank and to supply the injection system of the combustion engine with fuel. The tank is intended to be secured to the body of the vehicle via suitable securing means consisting, in particular, of straps having through-holes for securing members proceeding from the body of the vehicle, such as studs.
The tank further comprises passages for routing and holding pipes and wiring harnesses, such as a pipe extending from the gauge-pump module to the combustion engine, a pipe extending from a vapor absorption device to the combustion engine, harnesses to the rear axle, a harness for supplying an additional heating unit, a harness for supplying a leak diagnosis module of the vapor absorption device, etc.
However, there is a wide variety of tank casing designs associated with the various emission standards, such as standards €5, €6, €6.1, €6.2, etc., with the different types of diesel or gasoline engines, as well as with the various tank suppliers.
Simplifying the tank is difficult due to the lack of centralization of information from the design teams for the different tanks, the difficulty of combining all the installation constraints, the delay in the launch schedules of the various vehicles, as well as the fact that, historically, the task of routing wiring harnesses and pipes on the tank was delegated to the supplier of the tank.
The invention aims to effectively remedy these drawbacks by proposing a fuel tank that can be adapted to several types of motor vehicle engines, comprising:
The fuel tank design enable the integration of all divergent elements in order to obtain a tank that is compatible with all motor vehicle engines. The fuel tank makes it possible to avoid differing installation volumes, which would require differing routes for pipes and wiring harnesses. The fuel tank also makes it possible to guarantee interchangeability of the tanks and components throughout the world. It is also possible to easily have multiple sources of supply in order to avoid any interruptions to the manufacture of motor vehicles in the event of a production problem in a factory.
According to one embodiment, the tank further comprises securing zones for securing added functional modules, so as to be able to select, if necessary, added functional modules depending on the type of engine of the motor vehicle.
According to one embodiment, the added functional module or modules of the tank are chosen from among the following functional modules: a diesel additive tank, a diesel filter, a gasoline filter, a fuel vapor absorber, valves.
According to one embodiment, the securing zones dedicated to the functional modules of a given engine are compatible with the functional modules of another engine.
According to one embodiment, in order to be compatible with a gasoline engine, the tank comprises passages for routing and holding all or some of the following pipes and wiring harnesses: rear axle harnesses, a pipe and a harness for supplying an additional heating unit, a pipe extending from the gauge-pump module to a combustion engine, a pipe extending from a vapor absorption device to the combustion engine, a fuel pipe supplying a gasoline filter, a harness for supplying a leak diagnosis module of the vapor absorption device.
According to one embodiment, in order to be compatible with a diesel engine, the tank comprises passages for routing and holding all or some of the following pipes and wiring harnesses: rear axle harnesses, a pipe and a harness for supplying an additional heating unit, a pipe extending from the gauge-pump module to a combustion engine, a pipe extending from a vapor absorption device to the combustion engine, a fuel pipe supplying a diesel filter, a diesel exhaust fluid pipe and a harness for supplying a pump of a selective catalytic reduction system, a harness of an exhaust probe for detecting nitrogen oxide pollutants, a harness for a soot detection probe.
According to one embodiment, the casing is made of a blow-molded plastic material.
The invention also relates to a motor vehicle that comprises a fuel tank as defined above.
Identical, similar, or analogous elements have the same reference sign across all figures.
A fuel filler pipe 12 proceeds from the tank 10 and terminates near an opening provided in an external panel of the body (not shown). A filler flap housing arranged in the opening of the panel is designed to receive the end of the filler pipe 12. A gauge-pump module 13 makes it possible to provide an indication of the quantity of the contents of the tank 10 and to supply the injection system of the combustion engine with fuel. The tank 10 is intended to be secured to the body of the vehicle via suitable securing means comprising, in particular, straps 14 having through-holes for securing members proceeding from the body of the vehicle, such as studs.
The casing 11 has a shape that is suitable for covering different types of motor vehicle engines. Therefore, the shape of the casing 11 may be suitable for gasoline and diesel engines without interfering with other components in the underbody of the corresponding vehicles.
In addition, the casing 11 comprises passages 15 that make shaped and adapted to route and hold pipes and/or wiring harnesses. The passages 15 are formed in advance in the casing 11 (i.e., are preformed in the casing) and are shaped and adapted to cover routes for pipes and/or wiring harnesses of different types of gasoline and diesel engines, such that some passages 15 used for the pipes and/or wiring harnesses of a gasoline engine are present for a diesel engine but not used, and vice versa. The passages 15 may for example consist of grooves made in the tank 10, the edges of which are provided with projecting portions for holding the wiring harnesses or pipes, in particular by means of snap-fitting.
The tank 10 also comprises securing zones 17 for securing added functional modules 20-23, so as to be able to select added functional modules 20-23 depending on the type of engine of the motor vehicle. The functional module or modules added to the tank 10 are chosen from among the following functional modules: a diesel additive tank 20 (
The securing zones 17 dedicated to the functional modules 20-23 of a given engine are compatible with the functional modules of another engine. The term “compatible” should be understood to mean that a securing zone 17 can receive functional modules 20-23 of different engines or, at the very least, will not cause interference between functional modules of different engines. The functional modules 20-23 can be secured in the dedicated securing zones 17 via suitable securing interfaces, for example using securing members such as screws or by means of welding, in particular for securing the fuel filters.
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Number | Date | Country | Kind |
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1871762 | Nov 2018 | FR | national |
This application is the US National Stage under 35 USC § 371 of International Application No. PCT/FR2019/052447, filed 10 Oct. 2019 which claims priority to French Application No. 1871762 filed 23 Nov. 2018, both of which are incorporated herein by reference.
Filing Document | Filing Date | Country | Kind |
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PCT/FR2019/052447 | 10/16/2019 | WO | 00 |