U.S. patent application number 15/635599 was filed with the patent office on 2017-11-09 for hazard suppression training simulator and method of training.
The applicant listed for this patent is Lion Group, Inc.. Invention is credited to John Joseph Blackburn.
Application Number | 20170323581 15/635599 |
Document ID | / |
Family ID | 40932044 |
Filed Date | 2017-11-09 |
United States Patent
Application |
20170323581 |
Kind Code |
A1 |
Blackburn; John Joseph |
November 9, 2017 |
HAZARD SUPPRESSION TRAINING SIMULATOR AND METHOD OF TRAINING
Abstract
A training simulator including a housing having a prop portion
configured to simulate or evoke an appearance of an object
encountered in firefighting activity. The simulator has a sensation
emitter coupled to the housing and configured to emit a sensation
to simulate or evoke an appearance of a hazardous condition. The
simulator further includes a sensor coupled to the housing and
configured to detect a simulated or an actual hazardous condition
suppressant directed at or applied to the housing, and a controller
operatively coupled to the sensor and the sensation emitter.
Inventors: |
Blackburn; John Joseph;
(Rensselaer, NY) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Lion Group, Inc. |
Dayton |
OH |
US |
|
|
Family ID: |
40932044 |
Appl. No.: |
15/635599 |
Filed: |
June 28, 2017 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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12361183 |
Jan 28, 2009 |
9728100 |
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15635599 |
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61063115 |
Feb 1, 2008 |
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Current U.S.
Class: |
1/1 |
Current CPC
Class: |
G09B 19/00 20130101 |
International
Class: |
G09B 19/00 20060101
G09B019/00 |
Claims
1. A training simulator comprising: a housing including a prop
portion configured to simulate or evoke an appearance of an object
encountered in firefighting activity; a sensation emitter coupled
to said housing and configured to emit a sensation to simulate or
evoke an appearance of a hazardous condition; a sensor coupled to
said housing and configured to detect a simulated or an actual
hazardous condition suppressant directed at or applied to the
housing; and a controller operatively coupled to the sensor and the
sensation emitter.
2. The simulator of claim 1 wherein said housing includes a housing
portion defining an interior compartment, and wherein said
sensation emitter is positioned in said interior compartment.
3. The simulator of claim 2 wherein prop portion is positioned on
top of said housing portion.
4. The simulator of claim 2 wherein the prop portion is removably
coupled to the housing portion.
5. The simulator of claim 2 wherein the training simulator is
configured such that the sensation emitted by the sensation emitter
is emitted externally of the interior compartment.
6. The simulator of claim 2 wherein the sensor is configured to
detect a simulated or an actual hazardous condition suppressant
that is applied to said housing externally of said interior
compartment.
7. The simulator of claim 2 wherein the controller is positioned in
the interior compartment.
8. The simulator of claim 1 wherein when the simulator is
configured such that when the sensation emitter emits the
sensation, the housing and the emitted sensation cooperate to
simulate that the object is subject to the hazardous condition.
9. The simulator of claim 1 wherein the controller is configured to
automatically vary the emissions of the sensation emitter in
response to an output of the sensor.
10. The simulator of claim 1 wherein the simulator further
comprises a display panel configured to visually display a
hazardous condition, and wherein said display panel is positioned
adjacent to said housing such that a visual display of the
hazardous condition on the display is positioned to appear to
emanate from said housing.
11. The simulator of claim 1 wherein said housing is manually
carryable.
12. The simulator of claim 1 wherein said sensation emitted by the
sensation emitter is detectable by a trainee positioned externally
of said housing who is positioned to apply the simulated or actual
hazardous condition suppressant at or to the housing.
13. The simulator of claim 1 wherein the sensation emitted by the
sensation emitter includes at least one of light, sound, smoke,
sparks, fluid, heat, solid material, or an odorous material.
14. The simulator of claim 1 wherein the sensor is configured to
detect at least one of an audible signal, electromagnetic signal,
ultrasonic signal, pressure signal, heat signal, particle signal,
fluid signal, gas vapor signal, or a fire blanket.
15. The simulator of claim 1 wherein the hazardous condition
comprises at least one of fire, smoke, sparks, steam leak,
flammable gas leak, toxic fluid leak, hazardous fluid leak, or
oxidizing gas leak.
16. The simulator of claim 1 wherein the object comprises at least
one of a device, machinery, hardware, furniture, container, or
enclosure.
17. The simulator of claim 1 wherein the object comprises at least
one of a motor, engine, pump, generator, stove, storage drum, box,
can, trashcan, or stove pot.
18. A training simulator comprising: a prop housing configured to
simulate or evoke an appearance of an object encountered in
firefighting activity; a sensation emitter coupled to said prop
housing and configured to emit a sensation to simulate or evoke a
hazardous condition; a sensor coupled to said prop housing and
configured to detect a simulated or an actual hazardous condition
suppressant directed at or applied to the prop housing; and a
controller operatively coupled to the sensor and the sensation
emitter.
19. A method for using a training simulator comprising: accessing a
training simulator including a housing having a prop portion
configured to simulate or evoke an appearance of an object
encountered in firefighting activity, a sensation emitter coupled
to said housing, a sensor coupled to said housing and a controller
operatively coupled to the sensor and the sensation emitter;
causing said sensation emitter to emit a sensation to simulate or
evoke an appearance of a hazardous condition; and said sensor
detecting a simulated or an actual hazardous condition suppressant
directed at or applied to the housing.
Description
[0001] This application is a continuation of U.S. patent
application Ser. No. 12/361,183 entitled HAZARD SUPPRESSION
TRAINING SIMULATOR AND METHOD OF TRAINING, filed on Jan. 28, 2009,
which in turn claims priority from U.S. Provisional Patent
Application Ser. No. 61/063,115 entitled INTERACTIVE 3D SIMULATED
FIRE SYSTEM filed on Feb. 1, 2008. The entire disclosure of both of
these applications is incorporated by reference herein.
[0002] The present system relates to hazardous condition
suppressing training devices, for example, fire suppressant
training simulators. In particular, aspects of the disclosure
provide devices and methods for training personnel on the proper
methods and techniques for suppressing hazardous condition, such
as, fires, gas leaks, toxic spills, and the like, with little or no
danger to the trainee. Aspects include simulators that simulate the
hazardous conditions while monitoring the effectiveness of the
trainee's hazard suppressing method and technique.
BACKGROUND
[0003] Currently there is a large number of, what the fire industry
refers to as, "props" used as live fire training aids. These props
typically consist of a fire proof material, such as, steel, formed
into the shape of a commonly encountered burning object, such as, a
paint locker, electric motor, trashcan, stove pot, and the like.
Typically, propane or natural gas flames are then sent through
these props to mimic the effect of the props being on fire.
Depending upon the training situation and specific prop, an
extinguishant, most typically water, is sprayed on the prop using
sound fire fighting techniques and, depending on whether the prop
flame is operator controller or is electronically controlled with
sensors, the fire that appears to be originating from the prop dies
down or is extinguished.
[0004] The prior art also include fire training systems that
generate images of flames on a screen or using a plurality of light
sources to generate the illusion of fire, for example, on a flat
surface. See, for example, U.S. Pat. No. 7,748,983 to Blackburn,
the disclosure of which is included by reference herein. Some of
these systems can also include interactivity for training purposes
such as the ability to receive some type of input from an actual or
simulated type of fire extinguishing device, such as, a real or
simulated fire extinguisher. Some of these systems also incorporate
external influences as inactive items such as pull stations, power
disconnect panels, alarms, telephones, smoke machines, etc., that
respond in conjunction with the simulated fire on the screen or
influence its progress. However, these and other related prior art
systems fail to provide a truly three-dimensional interaction and
training experience for the trainee: the prior art typically only
provides a simulated two-dimensional training experience. Aspects
of the present disclosure address this disadvantage of the prior
art.
SUMMARY
[0005] Aspects of the present disclosure address the limitations
and disadvantages of the prior art by providing hazard suppression
training simulators having training props that more accurately
simulate real-life hazardous conditions, for example, by providing
three-dimensional training props. Aspects of the disclosure include
light sources, for example, a single or a plurality of light
sources, that create the appearance or illusion of an actual fire
originating from within or about an object. In addition, aspects
may include the release of smoke, for example, proportional to the
fire, and optionally sound effects to create a more realistic
appearance of an object being on fire. In one aspect, sensors may
be provided that are adapted to detect simulated or actual hazard
suppressants, for example, a simulated or actual fire
extinguisher.
[0006] One aspect of the disclosure is a hazard suppression
training simulator including or comprising a housing; at least one
source of sensation (for example, visual, audio, smoke, fluid,
sound, heat, smell, solid material, and lights, among other humanly
sensible sensations) representing a hazardous condition; at least
one sensor adapted to detect a simulated or an actual hazardous
condition suppressant; and a controller adapted to vary the
sensation in response to the simulated or the actual suppressant
detected by the at least one sensor. The hazardous condition may be
a fire, smoke, sparks, a steam leak, a gas leak, or a toxic fluid
leak, a hazardous fluid leak, or a oxidizing gas leak, among other
hazardous conditions. In one aspect, the training similar may
simulate a condition that may promote or lead to one or more of the
above hazardous conditions, for example, exposed electrical wires
that may lead to fire ignition or a compromised or weakened pipe
that is about to burst, among other conditions. In one aspect, the
simulator may further include a prop mounted to the housing and
positioned to receive the sensation from the source of sensation,
for example, a device, machinery, hardware, furniture, a container,
a structure, an accumulation, or an enclosure. In one aspect, a
plurality of props may be provided which may be interchangeably
mounted to the housing. In another aspect, the simulator may
further include a display panel adapted to display a hazardous
condition.
[0007] Another aspect of the disclosure is a hazard suppression
training method including or comprising: providing a hazard
suppression training simulator as recited above to provide a
simulated hazardous condition; providing a simulated or actual
hazard suppression apparatus providing a simulated or an actual
hazard suppressant; directing the simulated or actual hazard
suppressant toward the simulator wherein the at least one sensor
detects the suppressant; and modifying the simulated hazardous
condition in response to the suppressant detected by the at least
on one sensor. In one aspect of the disclosure, the simulated
hazard suppression apparatus comprises a simulated fire
extinguisher, a simulated fire hose, a simulated fire blanket, or
the actual hazard suppression apparatus may be an actual fire
extinguisher, fire hose, or fire blanket. The actual hazard
suppressant may be water, carbon dioxide, Halon, a cloth or
blanket, a powdered chemical, a foam, air, an aerosol, or
combinations thereof. The simulated hazard suppressant may be an
audible signal, an electromagnetic signal, an ultrasonic signal, a
pressure signal, a heat signal, a particulate signal, a fluid
signal, a gas vapor signal, or a combination thereof.
[0008] These and other aspects, features, and advantages of this
invention will become apparent from the following detailed
description of the various aspects of the invention taken in
conjunction with the accompanying drawings
BRIEF DESCRIPTION OF THE DRAWINGS
[0009] The subject matter, which is regarded as the invention, is
particularly pointed out and distinctly claimed in the claims at
the conclusion of the specification. The foregoing and other
objects, features, and advantages of the invention will be readily
understood from the following detailed description of aspects of
the invention taken in conjunction with the accompanying drawings
in which:
[0010] FIG. 1 is a perspective view of a hazard suppression
training simulator according to one aspect of the disclosure.
[0011] FIG. 2 is an exploded perspective view of the training
simulator shown in FIG. 1.
[0012] FIGS. 3, 4, 5, and 6 are perspective views of various props
that can be used in the simulator shown in FIG. 1 according to
aspects of the disclosure.
[0013] FIG. 7 is a perspective view of the training simulator
system having the training simulator shown in FIG. 1 and a display
panel according to another aspect of the disclosure.
[0014] FIG. 8 is a perspective view of another training simulator
according to another aspect of the disclosure.
[0015] FIG. 9 is a top plan view of the aspect of the disclosure
shown in FIG. 8.
DETAILED DESCRIPTION
[0016] Features of the hazard suppression training simulator and
hazard suppression training method according to aspects of the
invention will be apparent from the following detailed
description.
[0017] FIG. 1 is a perspective view of a hazard-suppression
training simulator 10 according to one aspect of the disclosure.
FIG. 2 is an exploded perspective view of the training simulator 10
shown in FIG. 1. As shown in FIGS. 1 and 2, training simulator 10
typically includes a housing 12, at least one source of sensation
14, 16, and/or 18, for example, a visual, audio, smoke, fluid (gas
or liquid), sound, heat, solid materials, smells, lights, etc.,
representing a hazardous condition, for example, a fire; at least
one sensor 20 adapted to detect a simulated or an actual hazardous
condition suppressant; and a controller 22 (shown in phantom in
FIG. 1) adapted to vary the sensation produced by the source of
sensation 14, 16, and/or 18 in response to the simulated or the
actual suppressant detected by the at least one sensor 16. As
shown, housing 12 may include a top or cover 24.
[0018] Though housing 12 is shown as a parallelepiped, that is, a
rectangular box, in FIGS. 1 and 2, housing 12 may assume any
convenient shape suitable to enclose or accommodate one or more
sources of sensation 14, 16, and/or 18. For example, housing 12 may
be circular cylindrical, rectangular cylindrical, square,
spherical, hemispherical, or pyramidal, among other shapes.
[0019] Sources of sensation 14, 16, and/or 18 may be any source of
sensation that can be used to simulate a hazardous condition, for
example, a source of light, sound, smoke, fluid, smell, heat, etc.
For example, as shown in FIG. 2, source 14 may be one or more
sources of light simulating a fire or sparks. In one aspect, source
of light 14 may be one or more sources of light, for example, one
or more sources of colored light, for instance, to simulate the
red, yellow, and orange hues of a flame. In addition, source of
light 14 may vary the light provided to simulate an active fire,
for example, a roaring or a raging fire. One or more sources of
light 14 may include a least one source of light, but typically,
employs a plurality of light sources, for example, a plurality of
light sources located in housing 12, for instance, evenly
distributed about the inside of housing 12 or evenly distributed
about a light display panel 15. In another aspect, source of light
14 may comprise light guides, a CRT, a monitor, for example, flat
screen monitor, or a liquid crystal display, among other types of
displays, upon which a varying light pattern may be displayed.
Light source 14 may be mounted on one or more panels 15 mounted in
housing 12, for example, by means of conventional mechanical
fasteners. Light sources 14 may comprise incandescent lights,
fluorescent lights, electroluminescent lights (that is, "EL"
lights), plasma lights, lasers, or light emitting diodes (LEDs). In
one aspect of the disclosure, panels 15 may be printed circuit
boards (PCBs) and light sources 14 may comprise a plurality of LEDs
mounted to PCBs. In one aspect, light panel 15 may include from
about 1 to over 5 million light sources, for example, LEDs evenly
distributed about one or more PCBs. One such panel may be a light
panel having part number FPP-1 provided by BullEx Digital Safety of
Menands, N.Y., or its equivalent.
[0020] As also shown in FIG. 2, source of sensation 16 may be a
source of smoke simulating a fire, an incipient fire, a smoldering
fire, or a source of hazardous or toxic fluids (including liquids
or gases), for example, propane, natural gas, gasoline, kerosene,
diesel, methane, carbon monoxide, oxygen, aerosol, corrosive acid,
or biologically hazardous waste, among other fluids. In one aspect,
source of smoke 16 may be a conventional smoke generator, for
example, a smoke generator marketed under the name Alpha 900, by
Rosco, though any conventional smoke generator may be used. In one
aspect, the quantity or character of the smoke generated may vary
depending upon the simulated source of the smoke or depending upon
the suppressant, extinguishant, or simulated suppressant or
extinguishant applied to training simulator 10. For example, large
amounts of smoke may be emitted when a specific extinguishing or
suppressing method is used.
[0021] Another source of sensation 18 may be any source of sound,
for example, one or more electrical speakers 18. For example,
speakers 18 may be a source of audible sound simulating a hazardous
condition, for example, the zapping, crackling, smothering, etc. of
a fire, the hissing sound of a gas leak, the sound of a fluid leak,
the sound of steam on hot metal, and/or the sound of impact of a
simulated or actual suppressant or extinguishant upon the simulated
hazardous condition. The source of sound 18 may be coordinated with
a source of light 14 and the source of smoke 16 to more
realistically simulate the hazardous condition.
[0022] Sensors 20 may be any type of sensor adapted to detect the
presence of a simulated or actual hazard suppressant or
extinguishant and generate an electrical signal corresponding to
the presence of the suppressant or extinguishant. According to
aspects of the disclosure, sensor 20 may be adapted to detect any
stimulus emitted by a simulated or actual suppressing agent, for
example, a real or simulated fire extinguisher. For example, one or
more sensors 20 may be adapted to detect a wavelength of radiation
within the electromagnetic spectrum, for example, visible light,
radio waves, or microwaves; a pressure wave, for example, a sonic
signal, for example, an ultrasonic signal or an audible signal, for
example, simply the noise generated by a suppressing agent being
dispensed, a voice command from a trainer to a trainee, or a wave
of air; a fluid emitted by a suppressing agent, for example, a fire
extinguishing agent, such as water, an air-water mixture, carbon
dioxide, sodium bicarbonate, cornstarch, or a combination thereof;
a fluid simulating an extinguishant; a sold, for example, a solid
particulate; and combinations thereof. The class of radiation
within the electromagnetic spectrum that may be detected by sensors
20 includes, but is not limited to, ultraviolet (UV), visible,
infrared (IR), far infrared, microwaves, and radio frequency (RF),
and combinations thereof. According to one embodiment of the
present invention, the term "sonic" includes any stimulus
transmitted by compression waves in a medium, such as air, for
example, from the infrasonic waves, to audible waves (about 20 to
about 20,000 Hz), to ultrasonic waves. In one aspect of the
disclosure, sensor 20 may comprise an ultrasonic sensor, for
example, a piezoelectric ultrasonic sensor provided by Murata
Manufacturing Company, or its equivalent.
[0023] In one aspect, the one or more sensors 20 may also be
adapted to detect audible directives, for example, verbal
directives from a trainee or a trainer. Audible directives may
include but are not limited to oral/verbal directives given by a
trainee or a trainer or by an artificial voice synthesized/digital
voice. Sensors 20 or simulator 10 in general may also be adapted to
receive electronic-based directives or orders, such as those that
can be given by a computer, a minicomputer, a remote device, or a
personal digital assistant (PDA). In addition to the pressure waves
mentioned above, in one aspect, sensors 20 may be adapted to detect
wave patterns, for example, repeating patterns of high pressure and
low pressure regions moving through a medium, for instance, as can
be provided by sound patterns or vibration patterns emitted by a
fire suppressing device, such as a fire extinguisher, or its
equivalent.
[0024] According to aspects of the disclosure, the simulated
hazardous condition effected by the sources of sensation 14, 16,
and/or 18 may be regulated or controlled by controller 22, for
example, in response to the suppressant detected by the one or more
sensors 20. For example, controller 22 may be used to vary the
operation of the sources of sensation 14, 16, and/or 18 to simulate
the effect of applying an extinguishant or a simulated
extinguishant onto a simulated fire in or about prop 30, for
example, displaying a diminished or extinguishing fire when the
extinguishant is applied correctly or an enhanced or enraging fire,
for example, when the extinguishant is applied incorrectly. Though
no electrical connections are illustrated in FIGS. 1 and 2, it will
be understood that sources of sensation 14, 16, and 18, sensors 20,
and controller 22 may typically be powered by conventional means,
for example, plugged into a wall outlet, and may be connected and
communicate via wires or cables, or wirelessly. Controller 22 may
be any conventional electronic controlling device, such as, a
computer, a programmable logic controller (PLC), a microprocessor
(such as, an embedded microprocessor), or a networked control
device, among others. Controller 22 may typically have a user
interface, not shown, for example, a keyboard or hand held input
device for varying or controlling the operation simulator 10.
Controller 22 may comprise a 56800 series Microcontroller/DSP
Hybrid controller provided by Motorola, or its equivalent.
Controller 22 may include a display and may include one or more
shift register drivers to drive the operation of the sources of
sensation 14, 16, and/or 18.
[0025] According to one aspect of the disclosure, hazard
suppression training simulator 10, may include one or more "props"
30. As used herein and in the attached claims, a prop may comprise
any device or structure associated with the hazardous condition.
For example, props may be live fire training aids, that is,
objects, devices, containers, and the like, that are on fire. These
props may include, but are not limited to, simulated or real
machinery, such as, an engine, a pump, a parts washer, a stove, or
a furnace; an electric device, such as, an electric motor, a
generator, an electrical panel, or electronic equipment, for
example, a computer; an enclosure, such as, cabinet, a shelf, a
locker, or a paint locker; a container, such as, a box, a can, a
trashcan, a stove pot, a tank, a storage drum, an electrical
enclosure, or a vessel; a piece of hardware, for example, a valve,
a pipe, a pipe flange, or a pipe fitting (for example, a piece of
hardware or container that may be leaking a fluid, such as, steam
or a toxic fluid), a manifold, a pipe sensor, a hose, or a cable,
among others; furniture, for example, a bed, a table, a chair, or a
dresser; a household item; or a home and garden item, for example,
a deck section, a window, a wall section, a roof section, a gutter,
an accumulation or collection of material (for example, a pile of
sticks, a pile of leaves, or a pile of brush), or one or more
trees, among other simulated or real objects or structures
associated with a hazardous condition. In the aspect of the
disclosure shown in FIGS. 1 and 2, prop 30 comprises an electric
motor for the sake of illustration, but any of the props mentioned
above may be used.
[0026] In one aspect, prop 30 may be made of a fireproof material,
such as, steel, but may also be flammable, such as, made of plastic
or wood. According to aspects of the present disclosure, the one or
more props 30 may be mounted to housing 12 and positioned to
receive the sensation from one or more of the sources of sensation
14, 16, and/or 18, for example, to simulate the prop 30 being
engulfed in flame. In one aspect of the disclosure, the one or more
props 30 may be removably mounted to the housing, for example,
whereby a plurality of props may be interchangeably mounted to
housing 12. In one aspect, the one or more props 30 may be
removably mounted to housing 12 whereby a plurality of training
experiences can be provided, for example, a first training exercise
on a first prop and a second training exercise on a second,
different prop.
[0027] FIGS. 3, 4, 5, and 6 are perspective views of various props
that can be used in the simulator 10 shown in FIGS. 1 and 2
according to aspects of the disclosure. FIG. 3 illustrates a
wastebasket or trashcan 32 that may be used as a prop for simulator
10, for example, to simulate a fire in a wastebasket. FIG. 4
illustrates a pot 34 that may be used as a prop for simulator 10,
for example, to simulate a fire in a pot 34 resting on a burner 35.
FIG. 5 illustrates a barrel 36 that may be used as a prop for
simulator 10, for example, to simulate a fire in barrel 36. As
shown in FIG. 5, barrel prop 36 may be modified to accommodate
mounting on housing 12, for example, having a cutout 37 to
accommodate the geometry of housing 12. FIG. 6 illustrates a paint
locker 38 that may be used as a prop for simulator 10, for example,
to simulate a fire in paint locker 38 having one or more paint cans
39. It will be apparent to those of skill in the art that other
objects and devices may also be used as one or more props for
simulator 10. In another aspect of the disclosure, at least one of
the components positioned in housing 12, for example, one of the
sources of sensations 14, 16, and/or 18, sensors 20, and/or
controller 22 may be positioned in a prop, for example, in prop 30,
32, 34, 36, or 38, where housing 12 may be reduced in size or
eliminated entirely. For example, in one aspect, all the ancillary
devices, for example, the sources of sensations 14, 16, and/or 18,
sensors 20, and/or controller 22 may be positioned in the prop and
no housing 12 may be necessary.
[0028] The simulation effected by simulator 10, for example, by
means of sensors 20 and controller 22, may also be varied depending
upon the prop 30 being used. For example, certain props 30 may
require the use of specific fire fighting techniques while other
props may require a different fire fighting technique. In one
aspect, the prop 30 may be a container, for example, a cylindrical
container, having a bottom and an open top, wherein the at least
one sensor 20 is positioned at the bottom of the cylindrical
container and is accessible only from the open top of the
container. For instance, a prop 30, such as, trashcan 32 shown in
FIG. 3, may require a more three-dimensional fire fighting
technique to extinguish a fire. Specifically, in one aspect, when
the trashcan prop 32 is used to simulate a fire, the extinguishing
agent must typically be aimed into the can from above to be
extinguished. According to this aspect of the disclosure, simulator
10 and its operation may be modified whereby the one or more
sensors 20 may be positioned in the bottom of trashcan prop 32
whereby the trainee must direct the extinguishant or simulated
extinguishant down into the trashcan prop 32 to extinguish the
simulated fire in the trashcan prop 32. In another
three-dimensional aspect, the trainee may be required to place a
lid or a blanket or other sheet material over the trashcan prop 32
to extinguish the simulated fire. In order sense proper technique,
trashcan prop 32 may include one or more detectors to sense the
placement of the blanket or lid, for example, one or more
photosensitive sensors in trashcan prop 32 or one or more proximity
sensors in the open top of trashcan prop 32. Other prop-specific
modifications or sensor positions will be apparent to those of
skill in the art to provide the desired training experience.
[0029] FIG. 7 a perspective view of the training simulator system
40 having simulator 10 shown in FIG. 1 and a display panel 42
according to another aspect of the disclosure. In one aspect of the
disclosure, simulator 10 may be interfaced with display panel 42 to
further enhance the realistic simulation of a hazardous condition,
for example, a fire, flame, or steam leak, or a condition that may
promote or lead to one or more of the above hazardous conditions,
for example, exposed electrical wires that may lead to fire
ignition or a compromised or weakened pipe that is about to burst,
among other conditions. For instance, display panel 42 may be
adapted to display a hazardous condition, for instance, flames
emanating from a prop 30 or flames extending from trashcan 32,
flames extending three or more feet above the top of trashcan 32 or
a similar prop, or steam escaping from a pipe or pipe flange, among
other hazardous conditions. When a display panel 42 is provided,
controller 22 may be adapted to vary the hazardous condition on the
display panel 42 in response to the suppressant detected by the at
least one sensor 20. Display panel 42 may comprise the display
panel disclosed in U.S. Pat. No. 7,748,983 to Blackburn, the
disclosure of which is incorporated by reference herein in its
entirety, or any other display adapted to display a hazardous
condition, for example, fire, smoke, sparks, steam, etc.
[0030] In addition, display panel 42 may also be used to provide
enhanced levels of interactively between simulator 10, 40 and the
trainee (not shown). For example, display panel 42 may be used to
display a simulation of a fire spreading from a prop 30 to an
adjacent object or structure, for example, a wall or curtain, or
fire spreading from an adjacent object or structure to prop 30.
Display panel 42 may also be used to provide a display of the
effect of the use of the simulated or real extinguishant or
suppressant on the hazardous condition. For example, display panel
42 may be used to display the effect of applying an extinguishant
or a simulated extinguishant onto a simulated fire in or about prop
30, for example, displaying a diminished or extinguishing fire when
the extinguishant is applied correctly or an enhanced or enraging
fire, for example, when the extinguishant is applied incorrectly.
Display panel 42 may also display other objects or structures in
the vicinity of or adjacent to prop 30, for example, hazard
suppressant equipment, such as, an extinguisher or fire hose; an
electric control panel; a pull station; room lighting; sprinklers;
valves, such as, a gas shutoff valve; an alarm, a door or phone,
among other objects or structures.
[0031] According to one aspect of the disclosure, simulator 10
and/or system 40 may also include simulated or actual objects or
structures in the vicinity of or adjacent to housing 12 or prop 30,
for example, hazard suppressant equipment, such as, an extinguisher
or fire hose; an electric control panel; a pull station; room
lighting; sprinklers; valves, such as, a gas shutoff valve; an
alarm; simulated heat; a door; and a phone, among other real or
simulated objects or structures. In one aspect, a sparking
electrical device may be provided, for example, a sparking
electrical box or sparking motor, and similar 10 and/or system 40
may be adapted to simulate the ignition of a prop, for example,
prop 30, 32, 34, 36, 38 or a prop simulating an open parts washer
container, among other props, by the sparking electrical
device.
[0032] In another aspect of the disclosure, instead of the prop 30
being mounted to simulator 10 as shown in FIG. 1, the sources of
sensations 14, 16, and/or 18, sensors 20, and controller 30 may be
positioned or embedded within the one or more props 30. This aspect
of the disclosure may be more practical when more direct
interaction with the prop or a compact size of the prop is
advantageous. In addition, large props, such as, vehicles and even
structures, may be instrumented with sources of sensations 14, 16,
and/or 18; sensors 20; and/or a controller 22 to simulate a
hazardous condition requiring suppression, for example, a fire or a
toxic fluid spill. For example, FIG. 8 is a perspective view of
another training simulator 50 according to another aspect of the
disclosure. FIG. 9 is a top plan view of the aspect of the training
simulator 50 shown in FIG. 8. As shown in FIGS. 8 and 9, training
simulator 50 includes a pot 52 having one or more sources of
sensation 54, 56, one or more sensors 58, and a controller (not
shown). According to this aspect of the disclosure, pot 52 provides
the housing for the simulator. Though in FIGS. 8 and 9 the prop is
shown as a pot, it will be understood that, according to aspects of
the disclosure, simulator 50 may employ any one or more of the
props 30 described above, for example, a trashcan or an electrical
cabinet. The controller may comprise any one of the controlling
devices disclosed above with respect to controller 22. Sources of
sensation 54 and/or 56 may comprise any one or more of the sources
described above with respect to sources of sensation 14, 16, and
18. In the aspect of the disclosure shown in FIGS. 8 and 9, for
illustration, source of sensation 54 comprises a plurality of light
sources, one or more sources of sound, and/or one or more sources
of smoke which combine to simulate a fire in pot 52.
[0033] Also, sensors 58 may comprise any one or more of the sensors
described above with respect to sensors 20. Sensors 58 may be
positioned anywhere in, on, or about pot 52, that is, wherever it
is convenient to detect the presence of a suppressant, an
extinguishant, or a simulated extinguishant. However, in the aspect
of the disclosure shown in FIGS. 8 and 9, sensors 58 are positioned
about the rim of pot 52 to detect the presence of an extinguishant
or the presence of a suppressant adapted to smother a simulated
fire in pot 52. For example, sensors 58 may be positioned about the
rim of pot 52 to sense whether a trainee has properly smothered the
simulated fire, for example, by means of a fire blanket or a
similar smothering device, or simply by properly placing a top (not
shown) on pot 52.
[0034] It will be apparent to those of skill in the art that
aspects of the disclosure can provide an effective means for
training safety personnel, for example, fire fighters and first
responders, and ordinary citizens, in the proper use of hazard
suppressant equipment. However, it will be understood by those of
skill in the art that aspects of the disclosure may provide even
more than simply training to put out fires; aspects of the
disclosure can provide means to expose the trainee to emergency
scenarios that simulate actual real-life emergency environments.
For example, the three-dimensional props that characterize aspects
of the disclosure may enable the trainee to become immersed in a
simulated emergency environment that better prepares the trainee
for the actual real-life experience. In addition, aspects of the
disclosure avoid the use of fossil fuels that may characterize
prior art training devices and methods and aspects of the
disclosure can minimize or avoid the need for effluent collection
and disposal that may be required when employing actual
suppressants, such as, fire extinguishers. Though aspects of the
disclosure will be useful in training personnel in fire suppressant
techniques, it will be apparent to those of skill in the art that
aspects of the disclosure art not limited to training fire
suppressant techniques, but can be useful in training in
suppressing a broad range of hazardous conditions.
[0035] While several aspects of the present invention have been
described and depicted herein, alternative aspects may be effected
by those skilled in the art to accomplish the same objectives.
Accordingly, it is intended by the appended claims to cover all
such alternative aspects as fall within the true spirit and scope
of the invention.
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