WO2005097264A1 - Vehicle fire suppression system - Google Patents

Vehicle fire suppression system Download PDF

Info

Publication number
WO2005097264A1
WO2005097264A1 PCT/GB2005/001329 GB2005001329W WO2005097264A1 WO 2005097264 A1 WO2005097264 A1 WO 2005097264A1 GB 2005001329 W GB2005001329 W GB 2005001329W WO 2005097264 A1 WO2005097264 A1 WO 2005097264A1
Authority
WO
WIPO (PCT)
Prior art keywords
vehicle
suppression system
fire suppression
vehicle fire
region
Prior art date
Application number
PCT/GB2005/001329
Other languages
French (fr)
Inventor
Sean Linden
Original Assignee
The Linden Shield Limited
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by The Linden Shield Limited filed Critical The Linden Shield Limited
Publication of WO2005097264A1 publication Critical patent/WO2005097264A1/en

Links

Classifications

    • AHUMAN NECESSITIES
    • A62LIFE-SAVING; FIRE-FIGHTING
    • A62CFIRE-FIGHTING
    • A62C3/00Fire prevention, containment or extinguishing specially adapted for particular objects or places
    • A62C3/07Fire prevention, containment or extinguishing specially adapted for particular objects or places in vehicles, e.g. in road vehicles

Definitions

  • the present invention relates to a vehicle fire suppression system.
  • flammable fuel such as petrol, diesel or natural gas.
  • the fire can be fuelled by the fuel in the tank leading to a more serious fire, and possibly
  • extinguisher canister cannot be used if the driver is either remote from the fire
  • system comprising a fuel supply for housing a combustible fuel, wherein the vehicle
  • fire suppression system comprises a temperature-sensitive safety valve assembly
  • temperature- sensitive safety valve assembly being arranged to sense when a
  • the fuel supply assembly being arranged so that, once the predetermined temperature is exceeded, the fuel supply is shut off. In this way, if a vehicle has a fire, the fuel supply is not in fluid communication with the
  • the vehicle fire suppression system is arranged to activate after the
  • the vehicle fire suppression system preferably comprises a fire extinguisher canister, and once the predetermined temperature is exceeded.
  • agent is released from the fire extinguisher canister.
  • the temperature-sensitive safety valve in one preferred embodiment of the invention, the temperature-sensitive safety valve
  • assembly comprises a heat-sensitive sealing means, which is arranged to fail at a
  • heat-sensitive sealing means may comprise a container which encloses a sealed fluid
  • the container being designed to fail when the fluid in the container expands.
  • container may be made of glass, although it may alternatively be made from a non-brittle material which is resistant to vibrational forces encountered by a vehicle.
  • the temperature-sensitive safety valve assembly preferably comprises a region for
  • temperature-sensitive safety valve assembly comprises a valve arranged between the
  • valve being arranged so that normally it can be activated
  • the temperature-sensitive safety valve assembly comprises a region for holding a
  • the vehicle comprises a fire extinguisher canister, when the region is de-pressurised, a fire extinguisher agent is preferably released from the
  • canister preferably by movement of a valve arranged between the region and the fire
  • the fire extinguisher agent may be released through the region.
  • the heat-sensitive sealing means may be arranged inside a passenger compartment of
  • the heat-sensitive sealing means for example on a head restraint of a seat.
  • the temperature-sensitive safety valve assembly comprises a region for holding a
  • the region preferably comprises a conduit, such as a copper pipe, the conduit having a plurality of apertures through which the fire extinguisher agent can be
  • the conduit may curve so as to generally return back on itself, preferably
  • the conduit may comprise a plurality of generally straight sections,
  • the conduit may curve in only one plane. In this way it can remain compact in the direction perpendicular to
  • the apertures may be uniformly spaced along the conduit.
  • the apertures may be drilled.
  • the apertures may be oriented in different directions so as to direct a fire extinguisher
  • the majority of the apertures may be
  • the conduit may be arranged in the vicinity of an engine, preferably above an engine,
  • the conduit may be arranged in a vehicle passenger or storage area.
  • the conduit may be arranged in a vehicle passenger or storage area.
  • the valve arranged between the fuel supply and the region is preferably arranged
  • the power supply to the predetermined temperature Preferably, once the predetermined temperature is exceeded, the power supply to the predetermined temperature is exceeded, the power supply to the predetermined temperature is exceeded.
  • the vehicle fire suppression system comprises a temperature-sensitive safety valve assembly which is arranged to sense when a predetermined temperature is exceeded, wherein the temperature-sensitive safety valve assembly is arranged so that, once the
  • the fire suppression system becomes active.
  • the vehicle fire suppression system may comprise a fire extinguisher canister, and once the predetermined temperature is exceeded, agent is released from the fire extinguisher
  • the temperature-sensitive safety valve assembly comprises a
  • heat-sensitive sealing means which is arranged to fail at a predetermined high
  • the temperature-sensitive safety valve assembly comprises a region for holding a pressurised fluid, the region normally being sealed, and the region comprising a heat-sensitive sealing means which further
  • the vehicle fire suppression system comprising a conduit having an inlet for
  • conduit having a plurality of
  • the apertures may be spaced apart by a distance of up to five metres. In this way, the vehicle fire suppression system can emit an extinguishing agent in a plurality of spaced locations.
  • a vehicle comprising a vehicle fire suppression system in accordance with the first, second or third aspects of
  • FIGURE 1 is a schematic perspective view of part of a vehicle comprising a fire
  • FIGURE 2 is a simple schematic view, partly in cut-away, of a temperature-sensitive safety valve assembly in accordance with the invention
  • FIGU-RE 3 is a schematic view of a fire suppression system in accordance with the invention.
  • FIGURE 4 is a schematic view showing part of the fire suppression system of Figure 4.
  • a vehicle 2 has a fuel tank 4 arranged towards its rear end.
  • fuel tank 4 is connected via a first pipe 6 and a second pipe 8 to an engine (not shown
  • a temperature-sensitive valve assembly 10 Between the first pipe 6 and the second pipe 8 is arranged a temperature-sensitive valve assembly 10.
  • a third pipe 9 extends from the temperature-sensitive valve assembly 10 towards the
  • the temperature safety valve unit 12 comprises a housing 18, defining inside a cavity, the cavity being in communication with a conduit 20.
  • the housing 18 comprises an internal valve seat 22, which defines an aperture between the housing 18 and the regulator 14.
  • a fastener 24 is arranged, at a remote end of the housing 18 for fastening the housing 18 to the regulator 14.
  • the housing 18 comprises a valve stem (or spindle) 26, arranged with a valve head 28
  • valve stem 22 has a secondary stem 26a, which extends from a second valve head
  • the secondary stem 26a has a head 26b at an end
  • a diaphragm 32 is arranged in the housing 18
  • the conduit 20 is made of plastics.
  • the conduit 20 splits into two conduit arms 20a and 20b. Each conduit arm 20a and 20b is identical to each conduit arm 20a and 20b.
  • a heat sensitive closure member 34 at one end, which takes the form of a hollow, liquid-filled, glass bulb.
  • FIG. 6 Joining the two closure members 34 is a pipe section 60.
  • Figure 3 shows the pipe section 60 in more detail.
  • the pipe section 60 is made of 8mm copper tubing.
  • section 60 comprises six parallel lengths of tubing, successive lengths of tubing being
  • the pipe section 60 has a plurality of apertures 62 arranged along its length.
  • the apertures 62 all face out of the page in Figure 4 but other arrangements are envisaged such as apertures directed at a range of angles, each
  • the conduit 20 has another closure member 37, at its other end, which closure member 37 takes the form of a chamber having a one-way valve to
  • a threaded pipe 38 is provided, in communication with the closure member 37, and
  • the regulator 14 comprises a chamber 40 of dome-like form
  • the chamber 40 has an upper aperture defined by a wall 42.
  • the fastener 24 of the housing 18 is threaded onto the outside of the wall 42 after
  • the chamber 40 has an annular
  • An opening 48 in the ceiling of the chamber 40 allows gas to escape from the chamber to the atmosphere.
  • the pipe 16 comprises a first pipe part 50 and a second pipe part 52, which are,
  • the first part 50 has an outlet defined by a valve seat 54.
  • the second part 52 has an
  • the secondary stem 26a is arranged so that the valve head 26b is located inside the seat
  • a spring 58 is arranged between an
  • closure member 34 is about 15 bar.
  • the pressure is O bar (i.e.
  • the closure member 34 has a metal housing 64 which surrounds a
  • FIG. 3 shows in broken line detail an inside surface of the
  • hollow glass capsule and the hollow interior defined thereby, which encloses a liquid.
  • the hollow glass capsule 66 has a brass stem 67 connected to a circular base 68 which
  • closure member 34 is intended to cooperate with a seat 69 of the closure member 34.
  • the stem 67 and base 68 are forced outward under the bias of the fire extinguisher agent fluid and a spring (shown in Figure 3). As it is forced outward, the stem is retained by a guide (also shown in Figure 3). so that the base 68 hits the seat 69 properly.
  • the guide also shown in Figure 3.
  • a high pressure gas such as air
  • valve head 26b moves away from the seat 54 to
  • the closure member 34 fails. In the case of a high temperature, for example a fire, the closure member 34 fails.
  • the liquid in the hollow glass capsule 66 of the closure member 34 expands
  • conduit arms 20a, 20b The pressure in the conduit arm 20a falls causing the valve stem 26 and the valve secondary stem 26a to move towards the conduit arm 20a (i.e.

Landscapes

  • Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Business, Economics & Management (AREA)
  • Emergency Management (AREA)
  • Cooling, Air Intake And Gas Exhaust, And Fuel Tank Arrangements In Propulsion Units (AREA)

Abstract

The invention relates to a vehicle fire suppression system. The vehicle fire suppression system (2) comprises a fuel tank (4) for a combustible fuel, and a temperature-sensitive safety valve assembly (10). The temperature-sensitive safety valve assembly (10) is arranged to sense when a predetermined temperature, e.g. the temperature of a fire, is exceeded. The temperature-sensitive safety valve assembly (10) is arranged so that, once the predetermined temperature is exceeded, the fuel supply is shut off. Also, once the predetermined temperature is exceeded, agent is released from a fire extinguisher.

Description

Vehicle Fire Suppression System
The present invention relates to a vehicle fire suppression system.
Many land vehicles have an internal combustion engine which runs on highly
flammable fuel such as petrol, diesel or natural gas. Some vehicles have the capacity to
carry a large quantity of highly flammable fuel in a tank. When such a vehicle has a fire
the fire can be fuelled by the fuel in the tank leading to a more serious fire, and possibly
an explosion. It is known for a vehicle to carry a fire extinguisher canister and for the
driver to operate the fire extinguisher canister so as to put out the fire. However, a fire
extinguisher canister cannot be used if the driver is either remote from the fire
extinguisher canister or is injured. Even if the driver can operate the fire extinguisher canister, there will be an inherent delay, in which time the fire may grow more serious.
It is an aim of the invention to provide an improved vehicle fire suppression system.
According to a first aspect of the invention there is provided a vehicle fire suppression
system comprising a fuel supply for housing a combustible fuel, wherein the vehicle
fire suppression system comprises a temperature-sensitive safety valve assembly, the
temperature- sensitive safety valve assembly being arranged to sense when a
predetermined temperature is exceeded, and the temperature-sensitive safety valve
assembly being arranged so that, once the predetermined temperature is exceeded, the fuel supply is shut off. In this way, if a vehicle has a fire, the fuel supply is not in fluid communication with the
fire. Preferably, the vehicle fire suppression system is arranged to activate after the
predetermined temperature is exceeded. The vehicle fire suppression system preferably comprises a fire extinguisher canister, and once the predetermined temperature is
exceeded, agent is released from the fire extinguisher canister.
In one preferred embodiment of the invention, the temperature-sensitive safety valve
assembly comprises a heat-sensitive sealing means, which is arranged to fail at a
predetermined high temperature, the failure of the heat-sensitive sealing means causing the temperature-sensitive safety valve assembly to shut off the fuel supply. The
heat-sensitive sealing means may comprise a container which encloses a sealed fluid,
the container being designed to fail when the fluid in the container expands. The
container may be made of glass, although it may alternatively be made from a non-brittle material which is resistant to vibrational forces encountered by a vehicle.
The temperature-sensitive safety valve assembly preferably comprises a region for
holding a pressurised fluid, the region normally being sealed, and the region
comprising a heat-sensitive sealing means which further seals the region, wherein,
upon failure of the heat-sensitive sealing means, the region is desealed, and the
desealing of the region causes the fuel supply to be sealed. Most preferably, the
temperature-sensitive safety valve assembly comprises a valve arranged between the
fuel supply and the region, the valve being arranged so that normally it can be activated
open by pressure of fluid in the region, the opening of the valve causing the opening of an outlet of the fuel supply so that fuel can leave, and failure of the heat-sensitive sealing means allowing the region to de-pressurise, thereby activating the valve to close
under the action of a biasing means, thereby closing the outlet of the fuel supply. When
the temperature-sensitive safety valve assembly comprises a region for holding a
pressurised fluid, and the vehicle comprises a fire extinguisher canister, when the region is de-pressurised, a fire extinguisher agent is preferably released from the
canister, preferably by movement of a valve arranged between the region and the fire
extinguisher canister. The fire extinguisher agent may be released through the region.
The heat-sensitive sealing means may be arranged inside a passenger compartment of
the vehicle, for example on a head restraint of a seat. The heat-sensitive sealing means
may be arranged in the vicinity of an engine of the vehicle.
When the temperature-sensitive safety valve assembly comprises a region for holding a
pressurised fluid, the region preferably comprises a conduit, such as a copper pipe, the conduit having a plurality of apertures through which the fire extinguisher agent can be
released. The conduit may curve so as to generally return back on itself, preferably
more than once. The conduit may comprise a plurality of generally straight sections,
and a section which curves through approximately 180 degrees. The conduit may curve in only one plane. In this way it can remain compact in the direction perpendicular to
the plane so it can be stowed against flat surfaces of the vehicle in an unobtrusive
manner. The apertures may be uniformly spaced along the conduit. The apertures may be drilled.
The apertures may be oriented in different directions so as to direct a fire extinguisher
agent in corresponding different directions.
When the conduit curves in only one plane, the majority of the apertures may be
arranged transverse to the plane, preferably substantially all of the apertures are
perpendicular to the plane.
The conduit may be arranged in the vicinity of an engine, preferably above an engine,
most preferably on an underside of a bonnet hood.
The conduit may be arranged in a vehicle passenger or storage area. The conduit may
lie parallel to the plane of the wall or ceiling of the vehicle passenger or storage area.
The valve arranged between the fuel supply and the region is preferably arranged
adjacent the fuel supply.
Preferably, once the predetermined temperature is exceeded, the power supply to the
key ignition of the vehicle is shut down. In this way, turning the key ignition will not
create a spark which can itself cause a fire.
According to a second aspect of the invention there is provided a vehicle fire
suppression system comprising a fuel supply for housing a combustible fuel, wherein
the vehicle fire suppression system comprises a temperature-sensitive safety valve assembly which is arranged to sense when a predetermined temperature is exceeded, wherein the temperature-sensitive safety valve assembly is arranged so that, once the
predetermined temperature is exceeded, the fire suppression system becomes active.
In this way, the fire can be reduced in vigour or put out entirely.
The vehicle fire suppression system may comprise a fire extinguisher canister, and once the predetermined temperature is exceeded, agent is released from the fire extinguisher
canister. Preferably, the temperature-sensitive safety valve assembly comprises a
heat-sensitive sealing means, which is arranged to fail at a predetermined high
temperature, the failure of the heat- sensitive sealing means causing agent to be released
from the fire extinguisher canister. Most preferably, the temperature-sensitive safety valve assembly comprises a region for holding a pressurised fluid, the region normally being sealed, and the region comprising a heat-sensitive sealing means which further
seals the region, wherein, upon failure of the heat-sensitive sealing means, the region is
desealed, and the desealing of the region causes agent to be released from the fire extinguisher.
According to a third aspect of the invention there is provided a vehicle fire suppression
system, the vehicle fire suppression system comprising a conduit having an inlet for
fluid connection with a fire extinguishing agent, the conduit having a plurality of
apertures to allow release of a extinguishing agent. The apertures may be spaced apart by a distance of up to five metres. In this way, the vehicle fire suppression system can emit an extinguishing agent in a plurality of spaced locations.
According to a fourth aspect of the invention there is provided a vehicle comprising a vehicle fire suppression system in accordance with the first, second or third aspects of
the invention or any of the consistory clauses relating thereto.
A vehicle fire suppression system will now be described, by way of example only, and
with reference to the accompanying drawings, in which:-
FIGURE 1 is a schematic perspective view of part of a vehicle comprising a fire
suppression system in accordance with the invention,
FIGURE 2 is a simple schematic view, partly in cut-away, of a temperature-sensitive safety valve assembly in accordance with the invention,
FIGU-RE 3 is a schematic view of a fire suppression system in accordance with the invention, and
FIGURE 4 is a schematic view showing part of the fire suppression system of Figure 4. Referring to Figure 1 , a vehicle 2 has a fuel tank 4 arranged towards its rear end. The
fuel tank 4 is connected via a first pipe 6 and a second pipe 8 to an engine (not shown
for clarity) mounted towards the front of the vehicle.
Between the first pipe 6 and the second pipe 8 is arranged a temperature-sensitive valve assembly 10.
A third pipe 9 extends from the temperature-sensitive valve assembly 10 towards the
engine at the front of the vehicle 2, so as to allow fuel to be supplied to the engine.
Referring now to Figure 2, the temperature-sensitive safety valve assembly 10
comprises a temperature-sensitive safety valve unit 12, and a regulator 14 for a fuel
pipe 16, which fuel pipe 16 becomes first pipe 6 upstream.
The temperature safety valve unit 12 comprises a housing 18, defining inside a cavity, the cavity being in communication with a conduit 20.
The housing 18 comprises an internal valve seat 22, which defines an aperture between the housing 18 and the regulator 14.
A fastener 24 is arranged, at a remote end of the housing 18 for fastening the housing 18 to the regulator 14. The housing 18 comprises a valve stem (or spindle) 26, arranged with a valve head 28
inside the housing cavity and above seat 22. A second valve head 27 is provided at the other end of the stem 26. A spring 30 is arranged around the' part of the stem 26 between the valve head 28 and a wall of the housing 18 and biases the stem 26 upward. The valve stem 22 has a secondary stem 26a, which extends from a second valve head
27, in line with the valve stem 26. The secondary stem 26a has a head 26b at an end
remote from the second valve head 27. A diaphragm 32 is arranged in the housing 18
cavity above the valve head 28.
The conduit 20 is made of plastics.
The conduit 20 splits into two conduit arms 20a and 20b. Each conduit arm 20a and
20b has a heat sensitive closure member 34, at one end, which takes the form of a hollow, liquid-filled, glass bulb.
Joining the two closure members 34 is a pipe section 60. Figure 3 shows the pipe section 60 in more detail. The pipe section 60 is made of 8mm copper tubing. The pipe
section 60 comprises six parallel lengths of tubing, successive lengths of tubing being
joined by curved sections of tubing to form a planar frame.
The pipe section 60 has a plurality of apertures 62 arranged along its length. In the
embodiment shown in Figure 4 the apertures 62 are uniformly spaced along the straight
sections of the pipe section 60. The apertures 62 all face out of the page in Figure 4 but other arrangements are envisaged such as apertures directed at a range of angles, each
angle being transverse to the plane of the pipe section 60.
Referring back to Figure 2, the conduit 20 has another closure member 37, at its other end, which closure member 37 takes the form of a chamber having a one-way valve to
allow gas refilling of the conduit 20.
A threaded pipe 38 is provided, in communication with the closure member 37, and
directly adjacent thereto, to allow connection of a gas supply and prompt refilling of the
conduit 20.
Still looking at Figure 2, the regulator 14 comprises a chamber 40 of dome-like form,
which defines an inner cavity. The chamber 40 has an upper aperture defined by a wall 42. The fastener 24 of the housing 18 is threaded onto the outside of the wall 42 after
introducing the valve stem 26 into the chamber 40. The chamber 40 has an annular
recess 44, which recess houses a diaphragm 46. The valve head 27 of the valve stem 26
acts on the diaphragm 46. An opening 48 in the ceiling of the chamber 40 allows gas to escape from the chamber to the atmosphere.
The pipe 16 comprises a first pipe part 50 and a second pipe part 52, which are,
respectively, arranged before and after the temperature-sensitive safety valve unit 12.
The first part 50 has an outlet defined by a valve seat 54. The second part 52 has an
inlet 56. The outlet 54 and the inlet 56 are both in communication with the internal
chamber 40 of the regulator 14. The secondary stem 26a is arranged so that the valve head 26b is located inside the seat
54 of the pipe part 50. Inside the chamber 40, a spring 58 is arranged between an
underside of the diaphragm 46 and the first pipe part 50.
Referring to Figure 3, the pressure in the conduit arm 20a upstream of the heat sensitive
closure member 34 is about 15 bar. In the pipe section 60, the pressure is O bar (i.e.
ambient pressure). The closure member 34 has a metal housing 64 which surrounds a
hollow glass capsule 66. Figure 3 shows in broken line detail an inside surface of the
hollow glass capsule, and the hollow interior defined thereby, which encloses a liquid.
The hollow glass capsule 66 has a brass stem 67 connected to a circular base 68 which
is intended to cooperate with a seat 69 of the closure member 34. The closure member
34 is arranged so that when the glass periphery of the hollow glass capsule 66 shatters
the stem 67 and base 68 are forced outward under the bias of the fire extinguisher agent fluid and a spring (shown in Figure 3). As it is forced outward, the stem is retained by a guide (also shown in Figure 3). so that the base 68 hits the seat 69 properly. The guide
has a fluid permeable side wall (shown in broken line in Figure 3) and a lid (shown in
solid line) which defines a circular aperture for the stem 67. The lid and stem fit so as to
maintain fluid tight as far as the fluid in the conduit arm 20a is concerned. The stem
and base 67, 68 are forced outward until the base 68 cooperates with the seat 69,
thereby sealing the line so that fluid can pass, without loss, from the conduit arm 20a
into the pipe section 60 (and also from the conduit arm 20b into the pipe section 60). In use, and referring to Figure 2, the first pipe part 50 of the gas pipe 16 is connected to
the fuel supply 4, via pipe 6 which is also shown in Figure 1. Ordinarily, the closure member 34 is intact, sealing the region within the conduit 20. In this state, pressure
caused by the presence of a high pressure gas (such as air) in the conduit 20 acts on the
diaphragm 32 to force the valve head 28 and the valve stem 26 down, against the bias of the spring 30. Consequently, the valve head 26b moves away from the seat 54 to
allow fuel therethrough. Fuel is then diverted by the diaphragm 46 into the second pipe part 52 of the pipe 16. In this way, fuel is free to move through the second pipe part 52
of the pipe 16 to other parts, for example, in this case via the pipe 9 towards the engine
(not shown).
In the case of a high temperature, for example a fire, the closure member 34 fails. In
particular, the liquid in the hollow glass capsule 66 of the closure member 34 expands
causing the capsule to explode. Shattered pieces of the glass capsule 66 fall away from
the conduit arms 20a, 20b. The pressure in the conduit arm 20a falls causing the valve stem 26 and the valve secondary stem 26a to move towards the conduit arm 20a (i.e.
upwards in Figure 1), under the force of the spring 58, until the valve head 26b of the secondary stem 26a moves into sealing contact with the valve seat 54 of the first pipe
part 50 of the fuel pipe 16. In this way, the temperature-sensitive safety valve assembly
10 in accordance with the invention quickly, efficiently, cheaply and simply shuts off the fuel pipe 16.
Simultaneously with the above mentioned shutting off of the fuel pipe 16,
depressurisation of the conduit 20 causes a valve (not shown for conciseness) arranged between the conduit 20 and a fire extinguisher canister 70 (shown in Figure 1 and
Figure 3) to move, thereby allowing a fire extinguishing agent to flow into the conduit
20, and onwards through the conduit arms 20a, 20b and apertures 62 in the pipe section
60, so as to douse the fire.

Claims

Claims
1. A vehicle fire suppression system comprising a fuel supply for housing
combustible fuel, wherein the vehicle fire suppression system comprises a
temperature-sensitive safety valve assembly, the temperature-sensitive safety valve
assembly being arranged to sense when a predetermined temperature is exceeded, and
the temperature-sensitive safety valve assembly being arranged so that, once the
predetermined temperature is exceeded, the fuel supply is shut off.
2. A vehicle fire suppression system according to Claim 1, wherein the vehicle
fire suppression system is arranged to activate after the predetermined temperature is
exceeded.
3. A vehicle fire suppression system according to Claim 2, wherein the vehicle
fire suppression system comprises a fire extinguisher canister, and once the
predetermined temperature is exceeded, agent is released from the fire extinguisher
canister.
4. A vehicle fire suppression system according to any preceding claim, wherein
the temperature-sensitive safety valve assembly comprises a heat-sensitive sealing
means, which is arranged to fail at a predetermined high temperature, the failure of the heat-sensitive sealing means causing the temperature-sensitive safety valve assembly to
shut off the fuel supply.
5. A vehicle fire suppression system according to Claim 4, wherein the
temperature-sensitive safety valve assembly comprises a region for holding a pressurised fluid, the region normally being sealed, and the region comprising a
heat-sensitive sealing means which further seals the region, wherein, upon failure of the
heat-sensitive sealing means, the region is desealed, and the desealing of the region
causes the fuel supply to be sealed.
6. A vehicle fire suppression system according to Claim 5, wherein the
temperature-sensitive safety valve assembly comprises a valve arranged between the
fuel supply and the region, the valve being arranged so that normally it can be activated
open by pressure of fluid in the region, the opening of the valve causing the opening of
an outlet of the fuel supply so that fuel can leave, and failure of the heat-sensitive
sealing means allowing the region to de-pressurise, thereby activating the valve to close
under the action of a biasing means, thereby closing the outlet of the fuel supply.
7. A vehicle fire suppression system according to any one of Claims 5 and 6,
when dependent on Claim 3, wherein, when the region is de-pressurised, a fire
extinguisher agent is released.
8. A vehicle fire suppression system according to Claim 7, wherein the fire
extinguisher agent is released through the region.
9. A vehicle fire suppression system according to any one of Claims 5 to 8, wherein the region comprises a conduit, such as a copper pipe, the conduit having a
plurality of apertures through which the fire extinguisher agent can be released.
10. A vehicle fire suppression system according to Claim 9, wherein the conduit
curves so as to generally return back on itself.
1 1. A vehicle fire suppression system according to Claim 10, wherein the conduit
curves so as to generally return back on itself more than once.
12. A vehicle fire suppression system according to Claim 10, wherein the conduit
comprises a plurality of generally straight sections, and a section which curves through
approximately 180 degrees.
13. A vehicle fire suppression system according to one of Claims 10 to 12, wherein the conduit curves in only one plane.
14. A vehicle fire suppression system according to Claim 13, wherein the apertures are uniformly spaced along the conduit.
15. A vehicle fire suppression system according to Claim 13 or 14, wherein the
apertures are drilled.
16. A vehicle fire suppression system according to Claim 13, 14, or 15, wherein the apertures are oriented to direct a fire extinguisher agent in different directions.
17. A vehicle fire suppression system according to any of Claims 12 to 16, wherein the conduit is arranged in a single plane, and the majority of the apertures are arranged
transverse to the plane.
18. A vehicle fire suppression system according to Claim 17, wherein substantially
all of the apertures are perpendicular to the plane.
19. A vehicle comprising a vehicle fire suppression system according to any of
Claims 9 to 18, wherein the conduit is arranged in the vicinity of an engine of the
vehicle.
20. A vehicle according to Claim 19, wherein the conduit is arranged above the
engine.
21. A vehicle according to Claim 20, wherein the conduit is arranged on the underside of the bonnet hood.
22. A vehicle comprising a vehicle fire suppression system according to any of
Claims 9 to 18, wherein the conduit is arranged in a vehicle passenger or storage area.
23. A vehicle according to Claim 22, wherein the conduit lies parallel to the plane
of the wall or ceiling of the vehicle passenger or storage area.
24. A vehicle comprising a vehicle fire suppression system according to any one of Claims 4 to 8, wherein the heat-sensitive sealing means is arranged inside a passenger
compartment of the vehicle.
25. A vehicle according to Claim 24, wherein the heat-sensitive sealing means is
arranged on a head restraint of a seat.
26. A vehicle fire suppression system according to any preceding claim, when
dependent on Claim 6, wherein the valve is arranged adjacent the fuel supply.
27. A vehicle comprising a vehicle fire suppression system according to any preceding claim, wherein, once the predetermined temperature is exceeded, the power
supply to the key ignition of the vehicle is shut down.
28. A vehicle fire suppression system comprising a fuel supply for housing a
combustible fuel, wherein the vehicle fire suppression system comprises a temperature-sensitive safety valve assembly which is arranged to sense when a
predetermined temperature is exceeded, wherein the temperature-sensitive safety valve
assembly is arranged so that, once the predetermined temperature is exceeded, the
vehicle fire suppression system becomes active.
29. A vehicle fire suppression system according to Claim 28, wherein the vehicle fire suppression system comprises a fire extinguisher canister, and once the
predetermined temperature is exceeded, agent is released from the fire extinguisher
canister.
30. A vehicle fire suppression system according to Claim 29, wherein the
temperature-sensitive safety valve assembly comprises a heat-sensitive sealing means,
which is arranged to fail at a predetermined high temperature, the failure of the
heat-sensitive sealing means causing agent to be released from the fire extinguisher
canister.
31. A vehicle fire suppression system according to Claim 30, wherein the
temperature-sensitive safety valve assembly comprises a region for holding a pressurised fluid, the region normally being sealed, and the region comprising a
heat-sensitive sealing means which further seals the region, wherein, upon failure of the
heat-sensitive sealing means, the region is desealed, and the desealing of the region
causes agent to be released from the fire extinguisher.
32. A vehicle fire suppression system, the vehicle fire suppression system
comprising a conduit pipe having an inlet for fluid connection with a fire extinguishing
agent, the conduit having a plurality of apertures to allow release of a fire
extinguishing agent.
33. A vehicle comprising a vehicle fire suppression system in accordance with any
one or more of Claims 1 to 32.
34. A vehicle fire suppression system substantially as described herein and shown
in the accompanying drawings.
35. A vehicle sub-assembly substantially as described herein and shown in the accompanying drawings.
PCT/GB2005/001329 2004-04-07 2005-04-06 Vehicle fire suppression system WO2005097264A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
GB0407883A GB2412864A (en) 2004-04-07 2004-04-07 Vehicle fire suppression system
GB0407883.8 2004-04-07

Publications (1)

Publication Number Publication Date
WO2005097264A1 true WO2005097264A1 (en) 2005-10-20

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WO (1) WO2005097264A1 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2008096095A1 (en) 2007-02-07 2008-08-14 The Linden Shield Limited Valve assembly

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2802387B1 (en) * 2012-01-10 2019-05-15 Michael Wedowski Protection device

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EP0036071A1 (en) * 1980-03-13 1981-09-23 Caterpillar Tractor Co. Fire suppression system
EP0487445A1 (en) * 1990-10-16 1992-05-27 Ioannis Bouranis Fire detection and automatic and/or manual fire extinguishing system for automotive units
GB2259011A (en) * 1991-08-27 1993-03-03 Maurice Lloyd Automatic fire extinguishing system for an automobile

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Publication number Priority date Publication date Assignee Title
GB376312A (en) * 1931-04-08 1932-07-08 Bertram Sale Improvements in automatic fire extinguishers
GB392927A (en) * 1931-11-19 1933-05-19 Francis Warren Improvements in or relating to fire extinguishing arrangements and apparatus therefor
US4338896A (en) * 1980-03-13 1982-07-13 Caterpillar Tractor Co. Fire suppression system
DE3919033A1 (en) * 1989-06-10 1990-12-13 Helmut Dipl Ing Hornung Vehicle fire prevention system - has temp. sensor to closed valve in fuel line and prevent ignition in tank

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Publication number Priority date Publication date Assignee Title
EP0036071A1 (en) * 1980-03-13 1981-09-23 Caterpillar Tractor Co. Fire suppression system
EP0487445A1 (en) * 1990-10-16 1992-05-27 Ioannis Bouranis Fire detection and automatic and/or manual fire extinguishing system for automotive units
GB2259011A (en) * 1991-08-27 1993-03-03 Maurice Lloyd Automatic fire extinguishing system for an automobile

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2008096095A1 (en) 2007-02-07 2008-08-14 The Linden Shield Limited Valve assembly

Also Published As

Publication number Publication date
GB2412864A (en) 2005-10-12
GB0407883D0 (en) 2004-05-12

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