FR2811231A1 - Fire prevention system for vehicle includes computer detecting operating parameters of vehicle and injecting neutralizing agent into fuel in event of fire risk - Google Patents

Abstract

The fire prevention system for a vehicle (10) includes a detection device (12) connected to a injector (14) which is able to inject a neutralising agent into the fuel circuit (16). The fire prevention system for a vehicle (10) includes a detection device (12) sensing the risk of fire within the vehicle, connected to a injector (14) which is able to inject a neutralising agent into the fuel circuit (16). The injector has an associated actuator (22) and may be installed within the fuel tank (24). The detection device comprises an on-board computer (18) which is connected to an internal communication network (20) within the vehicle. The computer receives such information as the level of fuel in the tank, the temperature of the water and/or oil, and the speed and acceleration. The communications network within the vehicle may include connection to other computer controlled devices, such as anti-lock braking and air bag actuating devices.

Description

The invention relates to a method for limiting the risk of fire.

  as well as a fire safety device for a thermal vehicle. More specifically, the device according to the invention makes it possible to limit the risk of fire or even explosion in the event of a vehicle accident in

  thermal propulsion, by intervention on the fuel circuit.

  Modern cities are constantly growing, while the infrastructures that are necessary for the circulation of vehicles are not developing at the same rate. Faced with the lack of traffic flow, drivers are no longer able to respect the minimum safety distances between vehicles. In such conditions, the slightest accident can turn into a disaster: pileup, fire spreading from vehicle to vehicle, explosions under tunnels, etc. At the same time as this phenomenon, vehicles are becoming more and more efficient, fast and comfortable. Too much confidence in driver assistance systems (braking and steering) causes a decrease in driver alertness, increasing at the same time

  the risk and severity of accidents.

  Finally, modern cars, more and more complex, require many electrical or electronic systems which can prove to be extremely dangerous if the fuel were to spread. Indeed, the slightest spark or heat source is liable to ignite

  fuel and thus start a fire or even an explosion.

  Despite the efforts of car manufacturers who, in order to improve their brand image, offer more and more safety equipment (anti-lock brakes, multiple airbags, dynamic stability correction), the occupants of damaged vehicles are always exposed to a possible fire. Even if they survive the shock of the accident, they may remain trapped in the

  carcass of the vehicle, at the mercy of the flames.

  Rescue teams are not immune to the danger either. They too can be surprised during an intervention by an explosion. In the end, this type of accident can unfortunately cause more victims than there were, causing passengers in the vehicles involved. In the best of cases, even if all the wounded have been able to be evacuated in time, fire or explosion of vehicles can seriously damage roads, tunnels or bridges. The restoration of such

  infrastructure is very expensive for the community.

  If you manage to avoid fires and explosions of vehicles during road accidents, you not only limit material damage but

  1o above all, we save more human lives.

  Also to minimize the risk of fire from a thermal propelled vehicle, the Applicant has developed a fire safety device for a thermal vehicle comprising means for detecting the fire risks of said vehicle which are connected to means

  injecting a neutralizing agent into the fuel circuit.

  By preventing the accident vehicle from catching fire, the device according to the invention consequently limits the risk of fire spreading to other vehicles possibly involved. This aspect becomes all the more important when an accident takes place in a place difficult to access for the emergency services or even in a confined place such as a

tunnel, for example.

  Another advantage of the device according to the invention, the rescue teams can intervene with injured people imprisoned in the carcass of their

  vehicles without having to fear an explosion.

  Finally, such a device improves the manufacturer's brand image by emphasizing its desire to strengthen the safety of its vehicles and above all

that of its occupants.

  The present invention will now be illustrated in more detail in its other characteristics and advantages compared to the prior art and with reference to the accompanying drawings in which, Figure 1 shows a device of the prior art type "circuit breaker ", Figure 2 shows a device according to the present invention, and Figure 3 shows an operating mode of a device according to the invention. As illustrated in Figure 1, in current automobiles the fuel is generally contained in a tank (24) placed at the rear of the vehicle, while the engine (11) is located at the front of the vehicle. One line (13) carries the fuel from the tank to the engine, another ensures the return (15). The booster pump (17), whether external or even submerged in the tank, increases the fuel pressure to supply the engine. This pump is

  Jo electronically controlled by an engine control computer (20).

  Some vehicles today have an inertia circuit breaker (19). It takes the form of a metallic sphere which acts as a switch. Under the effect of a violent shock, this sphere leaves its housing, driven by its own inertia. It then cuts the electrical circuit controlling the booster pump, thus stopping the arrival of the

fuel to the engine.

  However, this system does not prevent the tank or the fuel

  possibly widespread to ignite.

  Furthermore, since the detectors used are generally of the mechanical type, it is not certain that they will be triggered for all the types of impact encountered. Indeed, one can quite imagine that the shock is not violent enough to overcome the inertia of the sphere, or on the contrary, that the shock is so violent that it blocks the sphere in its housing, closing

  definitively the electrical circuit for controlling the booster pump.

  Figure 2 is an example of an embodiment of a device according to the present invention which makes it possible to limit the risk of fire or even explosion of a thermally propelled vehicle, by diffusion of a neutralizing agent in the fuel system. By neutralizing agent is meant any product or additive capable of inhibiting flammable properties and

explosives of a fuel.

  The device (10) according to the invention comprises means for detecting (12) the risk of fire of said vehicle which are connected to means

  injecting (14) a neutralizing agent into the fuel circuit (14).

  According to the invention, the device, managed electronically, knows at all times the state of the vehicle thanks to the information available.

  on the communication network (20) of the vehicle.

  This information is processed by the device of the invention which, after analysis, compares it to predefined scenarios which it has in memory. These scenarios characterize different accident situations presenting a

threat of fire.

  If the real conditions of the vehicle correspond to one of the scenarios, the device of the invention then applies a backup strategy

  1o consisting in diffusing a neutralizing agent in the vehicle tank.

  According to other characteristics of the present invention: - the detection means (12) comprise an on-board computer

  (18). It is the "intelligent" part of the device according to the invention.

  - said computer (18) is capable of receiving parameters chosen from the group comprising the level of fuel in the tank

  (24), water and / or oil temperatures, speed / acceleration.

  - said computer (18) is connected to an inter- communication network

  systems (20) which circulates throughout the vehicle so as to connect said detection means (12) to said injection means (14) of the

lI'invention.

  - Said communication network (20) is preferably constituted by a CAN bus type connection to which can be connected, for example, CMM (26), BSI (28), ABS (30) and other sensors and computers computers (27), depending on the level of equipment of the vehicle concerned. Thanks to this bus, each computer can thus have the information it needs at any time, regardless of its position at

inside the vehicle.

  - The injection means (14) of the device according to the invention preferably comprise an actuator (22) responsible for diffusing the agent

  neutralizing in the fuel system.

  - Said actuator is advantageously located inside the fuel tank (24), which has the advantage of ensuring the diffusion of the neutralizing agent as quickly as possible. In fact, once the accident has been detected, the fuel must be neutralized as soon as possible before it has time to spill in and / or around the vehicle, in the event that the tank

is pierced.

  - said neutralizing agent will be chosen according to the type of protection sought. To avoid any fuel leakage outside the tank in the event of an impact, an agent capable of solidifying the liquid fuel is preferred. To limit the risk of explosion in the event of an accident occurring in a confined space (tunnel, for example), we will rather choose a neutralizing agent

gasoline vapors.

  The present invention also relates to a method of limiting 1o of the risk of fire or even explosion of a thermal propelled vehicle comprising the steps consisting in: (i) acquiring on an inter-system communication network, in particular a bus CAN, parameters relating to the state of the vehicle at a given time; (ii) placing in said memory of an on-board computer said parameters, after a step consisting in filtering out outliers; (iii) recover and analyze said memorized parameters in order to determine the current state of the vehicle; (iv) compare said state of the vehicle with a series of predefined scenarios, present in the non-volatile memory of said computer, said scenarios characterizing different accident situations likely to present a threat of fire or even explosion and (v) authorize the activation of an actuator responsible for diffusing a neutralizing agent in the fuel circuit, when the real conditions of the vehicle are identical to one of said scenarios and finally (vi) pilot said actuator if and only if the authorization has been

  previously validated in the previous step.

  In step (i), the method according to the invention consists in monitoring in particular the following parameters: - the water and oil temperatures, which indicate a possible

  engine overheating or a fire in the engine compartment.

  - the triggering of holding or safety elements such as for example an airbag also called an air bag, which informs of a violent shock. The amplitude of shocks detected by sensors such as, for example, accelerometers placed in the vehicle. - the level of fuel in the tank, knowing that a leak can prove to be formidable following an accident and present a threat of fire. In FIG. 3, the various stages of the method according to the invention are illustrated, which are grouped into separate tasks, which can be timed by a real-time kernel. The latter decides on the task to be carried out according to the events which may occur, the degree of priority of

  the task and the memory power it has.

  In this Figure, the operation of an exemplary device according to the invention is broken down into four tasks, tasks n 1 to n 3 grouping steps (i) to (iv) mentioned above and task n 4 being the background task, ie executed when there are no other tasks to perform. It's here

  default task and this one has no action.

Claims (9)

  1. Fire safety device (10) for a thermal vehicle, characterized in that it comprises means for detecting (12) the risks of fire of said vehicle which are connected to injection means (14) of a   neutralizing agent in the fuel circuit (16).   2. Device according to claim 1, characterized in that said   detection means (12) comprise an on-board computer (18).   3. Device according to claim 2, characterized in that said   on-board computer (18) is connected to an inter- communication network systems (20).   4. Device according to claim 2 or 3, characterized in that said on-board computer (18) is capable of receiving parameters chosen from the group comprising the level of fuel in the tank,   water and / or oil temperatures, speed / acceleration.   5. Device according to any one of the preceding claims   characterized in that the injection means (14) comprise an actuator (22). 6. Device according to the preceding claim, characterized in that   said actuator (22) is located inside the fuel tank (24).   7. Device according to any one of claims 3 to 6   characterized in that said communication network (20) is a CAN bus link. 8. Device according to the preceding claim characterized in that to said CAN bus are connected sensors and computers CMM (26), BSI (28) and ABS (30).   9. Method for limiting the risk of fire or even explosion of a thermally propelled vehicle comprising the steps consisting in: (i) acquiring parameters relating to the inter-system communication network, in particular a CAN bus 'condition of the vehicle at any given time; (ii) placing in said memory of an on-board computer said parameters, after a step consisting in filtering out outliers; (iii) recover and analyze said memorized parameters in order to determine the current state of the vehicle; (iv) compare said state of the vehicle with a series of predefined scenarios, present in the non-volatile memory of said computer, said scenarios characterizing different accident situations likely to present a threat of fire or even explosion and o (v) authorize activation of an actuator responsible for diffusing a neutralizing agent in the fuel circuit, when the real conditions of the vehicle are identical to one of said scenarios and finally (vi) pilot said actuator if and only if the authorization has been   previously validated in the previous step.