This invention is directed toward the field of devices for emergency assistance and more particularly, to a housing of chemiluminescent lightsticks for use in emergency situations.
The ability to evacuate an area during an emergency is typically hampered by the loss of ambient lighting. For instance, evacuation from a train or airplane wreck will undoubtedly be made more difficult if no light is available. In fact, the loss of lighting will typically cause a panic situation whether the emergency is a wreck, weather related, an earthquake, or simply a power grid failure. When the evacuation includes numerous people, it is a necessity to stop panic and evacuate in an orderly manner for the safety of all involved. For these reasons, the need for emergency lighting is mandatory under most building codes.
Emergency lighting typically takes the form of fixed lighting powered by an AC source with a DC back-up battery. The reliability of a fixed system is dependant upon the maintenance of the back-up battery but in any event remains a fixed system. Evacuation procedures require the individuals to leave an area, thus the effectiveness of a fixed lighting system becomes problematic. Panic stricken individuals may refuse to leave a lighted area. For instance, the evacuation during an earthquake may require individuals to leave a lighted area, the lack of lighting in the exit way may prevent an orderly and safe evacuation. The survivors of a train or plane crash require the individuals to leave the area wherein a fixed light does not provide any coverage. Public transportation vehicles are especially at risk for inadequate lighting for power is typically provided by direct current, namely a battery source. Battery powered lights are only as good as the battery. If the battery has not been properly maintained or replaced, or becomes damaged during an accident, the battery powered light will fail.
Due to the limitations of fixed lighting and battery powered systems, a well accepted alternative lighting system is the use of chemiluminescent lightsticks. Chemiluminescent lightsticks provide portable light by the use of a chemical reaction not dependent upon any electrical power or batteries.
The long storage life and the excellent quality of light produced from current chemiluminescent lightsticks have made the product a mainstay in the industry for emergencies. A “chemiluminescent composition” is interpreted to mean a mixture or component thereof which will result in chemiluminescent light production when reacted with other necessary reactants in the processes as disclosed herein.
Chemiluminescent lighting devices are commonly used as a supplement and/or replacement for conventional illumination devices such as flashlights and flares. Chemiluminescent devices are non-incandescent products and are most valuable for emergency lighting applications such as when normal electrical power service is interrupted. Additionally, because chemiluminescent devices do not rely on electricity for operation, they are readily and reliably used in wet environments, even under water, where other powered devices could short out and fail.
Chemiluminescent light production generally utilizes a two-component system to chemically generate light. Chemiluminescent light is produced by combining the two components, which are usually in the form of chemical solutions referred to as the “oxalate” component and the “activator” component. The two components are kept physically separate by a sealed, frangible, glass vial containing one component which is housed within an outer flexible container containing the other component. Typically, this outer container is sealed to contain both the second component and the filled, frangible vial. Forces created by intimate contact with the internal vial, e.g. by flexing, cause the vial to rupture, thereby releasing the first component, allowing the first and second components to mix and produce light. Since the objective of this type of device is to produce usable light output, the outer vessel is usually composed of a clear or translucent material, such as polyethylene or polypropylene, which permits the light produced by the chemiluminescent system to be transmitted through the vessel walls.
These devices may be designed so as to transmit a variety of colors by either the addition of a dye or fluorescent compound to one or both of the chemiluminescent reactant compositions or to the vessel. Furthermore, the device may be modified so as to only transmit light from particularly chosen portions thereof.
Examples of such a chemiluminescent system include: U.S. Pat. No. 5,043,851 issued to Kaplan. Kaplan discloses a polygonal, chemiluminescent lighting device which concentrates light in the corners of the device, thus enhancing visibility of light emanating from the light stick portion of the device and optimizing the amount and distribution of light radiated.
U.S. Pat. No. 4,626,383 to Richter et al. discloses chemiluminescent catalysts in a method for producing light in short duration, high intensity systems, and low temperature systems. This invention relates to catalysts for two component chemiluminescent systems wherein one component is a hydrogen peroxide component and the other component is an oxalate ester-fluorescer component.
U.S. Pat. No. 4,186,426 discloses a chemiluminescent lightstick with an attached actuating device stored inside a container having a hinged lid which opens for access to and for display of the lightstick. The container includes a clamping means by which the lightstick is held at a display position holding the lid of the container open. In this mode, the lightstick and container make a convenient lantern.
U.S. Pat. No. 6,336,729 discloses a lighting system including a chemiluminescent stick supported within a holder. A break bar pivotally connected to the cover is initially in a vertical orientation, and temporarily retained by a latch to allow insertion of the lightstick in the holder and closure of the cover. When the cover is closed, the latch is released, which allows the break bar to move behind the lightstick, in a horizontal orientation. When the cover is then opened, the break bar engages the lightstick, and bends the lightstick forward around an edge to illuminate the lightstick.
U.S. Pat. No. 6,033,080 discloses an emergency light device including a chemiluminescent lightstick which can be easily removed. When an operating lever is pushed, an engaging portion of a pivoting member pushes the bottom portion of the chemiluminescent lightstick toward a wall surface. The chemiluminescent lightstick has on the top end thereof a head secured to a hook of a holding member. The chemiluminescent light stick can be easily bent to illuminate by the lever principle with the protuberance of a case body serving as a fulcrum and the engaging portion serving as the point of action. When the operating lever is further pushed, the top end of the pivoting member protrudes frontward to open a top cover and the holding member which has been restricted by the pivoting member is released and it moves upward by the urging force of a flat spring and the pressing force applied by the head of the chemiluminescent lightstick, thus enabling the chemiluminescent lightstick to be removed.
U.S. Pat. No. 5,446,629 discloses a mounted emergency light fixture. The light fixture has a mount assembly and a front cover with a break plate which bends a lightstick inserted into the fixture when the cover is pivoted from a closed to an open position. The mount assembly has a restraining plate and a back side which maintain the Nightstick within the mount when the cover is pivoted to the open position. Hence, after the cover is opened the lightsticks are illuminated and are held in the mount or may be removed to provide emergency lighting.
U.S. Pat. No. 6,065,847 discloses a chemiluminescent lighting device that may include a holder. The holder permits the user to activate the lightstick upon removal from the holder.
The above mentioned prior art all recognize the need for quick access to a lightstick to address emergency situations and the need to have the lightstick readily available. Additionally, in emergency situations, a person attempting to activate the light stick may not have full manual capacity or mental capacity for reasons attributed to the cause of the emergency. The present invention mitigates these problems. What is lacking in the art is a storage container for chemiluminescent lightsticks, the storage container including a means for automatically latching the storage device and activating the lightsticks producing light for illumination of the container and remaining lightsticks.
The emergency light fixture of the present invention consists of a mounting plate having a lightstick receptacle secured thereto. The receptacle includes a plurality of sockets available for receipt of the lightsticks which are accessed by opening a front cover. The cover is opened by pivoting from a closed position to an open position wherein a lightstick restraint causes the activation of all stored lightsticks so as to facilitate their removal and use during an emergency. One lightstick may be retained in the device by use of restricted movement housing, and all lightsticks may be made to rotate outwardly for ease of access.
The device may be mounted on any convenient, substantially planar surface such as a wall, preferably at a previously selected, accessible location. For instance, the mounting plate may be placed near the exit door on a train, plane, boat or cruise ship, motel, apartment hallway, school hallway, locker room, factory exit lane, stair wells and so forth. The proper placement is where a potential user of the device will be able to find the light source in an emergency because the fixture is easily accessible and because the light is permanently mounted at a predetermined, consistent location. Also unique to chemiluminescent devices are their ability to produce light without generating heat. Since chemiluminescent devices are not electrically operated or sources of ignition, they are ideally suited to emergency situations such as the aforementioned disasters. For instance, in situations where flammable vapors such as gasoline or natural gas may be present, conventional illumination such as candles, lanterns or even flashlights pose extreme danger as potential sources of ignition.
In operation, the lightsticks are positioned in the fixture and retained in position while the device is in a closed position. Then, when the cover of the fixture is pivoted to the open position, the unshaped channel holds an end of each lightstick resulting in the bending and activation of the lightsticks.
When the cover is pivoted to a sufficient angular extent with respect to the plane of the back side of the mount assembly, the light stick will bend sufficiently to break the ampoules within the Nightstick and then, as the cover is further pivoted, the remaining lightsticks are made available for ease of removal from the mounting plate.
Accordingly, moving of the cover to a fully opened position allows ease of lightstick access. The activation procedure is performed by simply pulling down the cover.
An objective of the instant invention is to provide an evacuation station capable of being mounted on any surface and providing activation of multiple chemiluminescent lightsticks.
Another objective of the instant invention is to provide an evacuation station having a plurality of lightsticks that operate as the latching mechanism so as to provide automatic arming by placement of a lightstick into a latching bracket.
Still another objective of the instant invention is to provide an evacuation station having an enclosure so as to prevent ambient light during storage to prolong the useful life of the chemiluminescent chemicals.
Still another objective of the instant invention is to provide evacuation station for use with chemiluminescent lights that include security tags to indicate that the contents have not been disturbed by vandals.
Yet another objective of the instant invention is to provide an evacuation station having a front panel with an integrated handle for ease of opening by use of leverage allowing ease of activating the lightstick held in the latching bracket.
Yet still another objective of the instant invention is to provide an evacuation station having a front cover of substantial height and width that allows for placement of indicating indicia providing evacuees with instructions in operation and usage.
Yet still another objective of the instant invention is to provide a tilt out socket holder that allows ease of access of the stored lightsticks when the front cover is placed in an open position.
Still another objective of the instant invention is to provide a holder for activating a plurality of lightsticks and, upon activation, capture of the lightsticks to maintain illumination of the exit way.
Other objectives and advantages of this invention will become apparent from the following description taken in conjunction with the accompanying drawings wherein are set forth, by way of illustration and example, certain embodiments of this invention. The drawings constitute a part of this specification and include exemplary embodiments of the present invention and illustrate various objectives and features thereof.
Referring now in general to
The front cover (14) has an outer surface having a width and height for placement of indicia either molded in, or by use of a fluorescent or photoluminescent decal which would allow the evacuation station to glow when there is a lack of natural light. The decal may exhibit instructions such, as an arrow indicating the user to pull down on the cover so as to activate the emergency light fixture, or the like instruction for operation and exit. The front cover (14) further includes partitions (80) that are formed by socket separators (81) and held in position by a support rod (82). The support rod (81) positions a plurality of lightsticks (50) in position along the inner surface of the cover. The cover (14) and mounting plate having apertures (34) & (36) allowing placement of tamper indicator tags (37 & 37) as shown in
Within the mounting plate (12) is located an activation flange (90) consisting of an upright panel that captures an edge of each lightstick upon the installation wherein each lightstick falls into a holding area (91) formed by the activation flange (90). The activation flange has the purpose of maintaining the lightsticks (50) in a position substantially parallel to the inner surface of the mounting plate. The activation flange results in the securement of the cover in an upright position parallel to the mounting plate wherein the lightsticks are situated within the activation holding area. The tamper tabs (36) may then be placed into the apertures to indicate an armed and untampered position.
Referring now to
The front cover (14) includes a plurality of partitions (80) for storage of the lightsticks (50). Depicted is a holder of ten lightsticks, all of which are activated upon the opening of the cover. The partitions create sockets (81) for positioning of the lightsticks. A support rod (82) maintains the lightsticks in position. A holder may be designed with more or less lightsticks and would be considered within the scope of this invention.
In operation, the lightsticks (50) need to be placed within the activation holder (91) so as to maintain the lightsticks in a fixed and parallel position relative to the front cover. When the front cover is being placed into a closed position, the end of the lightsticks fall into the activation holding area. As shown in
The cover is hingedly attached along the lower end (22) so as to allow the tilting of the lightsticks away from the front side (19) of the mounting plate when the front cover is placed in an open position.
Examples of suitable light stick products for use herein are the light sticks sold by Cyalume Technologies LLC under the trademarks “Cyalume” and “Snaplight”. Further details concerning the construction and operation of chemiluminescent lighting devices may be found in U.S. Pat. Nos. 3,539,794; 3,576,987; 4,508,642; 4,193,109; 4,814,949 and 5,043,851; the subject matter of which patents are incorporated herein by reference.
Referring now to
Now referring to
It is to be understood that while a certain form of the invention is illustrated, it is not to be limited to the specific form or arrangement herein described and shown. It will be apparent to those skilled in the art that various changes may be made without departing from the scope of the invention and the invention is not to be considered limited to what is show n and described in the specification and drawings/figures.
One skilled in the art will readily appreciate that the present invention is well adapted to carry out the objectives and obtain the ends and advantages mentioned, as well as those inherent therein. The embodiments, methods, procedures and techniques described herein are presently representative of the preferred embodiments, are intended to be exemplary and are not intended as limitations on the scope. Changes therein and other uses will occur to those skilled in the art which are encompassed within the spirit of the invention and are defined by the scope of the appended claims. Although the invention has been described in connection with specific preferred embodiments, it should be understood that the invention as claimed should not be unduly limited to such specific embodiments. Indeed, various modifications of the described modes for carrying out the invention which are obvious to those skilled in the art are intended to be within the scope of the following claims.
Number | Name | Date | Kind |
---|---|---|---|
4186426 | Gingras | Jan 1980 | A |
4626383 | Richter | Dec 1986 | A |
5043851 | Kaplan | Aug 1991 | A |
5446629 | Steiger et al. | Aug 1995 | A |
5557869 | Douglas | Sep 1996 | A |
5980055 | Palmer | Nov 1999 | A |
6033080 | Hasegawa | Mar 2000 | A |
6065847 | Palmer | May 2000 | A |
6079842 | Cheng | Jun 2000 | A |
6336729 | Pavelle et al. | Jan 2002 | B1 |
6409237 | Olshausen | Jun 2002 | B1 |
7033055 | Rutter, Sr. | Apr 2006 | B1 |
Number | Date | Country | |
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20090103279 A1 | Apr 2009 | US |