I. Field of the Invention
The present invention relates generally to personnel restraint seat belts and, more particularly, to such a seat belt which enables rapid identification of the belt during emergency situations.
II. Description of Relevant Art
Essentially all military and non-military vehicles include personnel safety restraint seat belts for securing the personnel to the vehicle during the operation of the vehicle. During normal operation of the vehicle, the release of the seat belts can be easily accomplished by the military personnel.
Military and non-military vehicles, as well as the personnel within those vehicles, however, are oftentimes subjected to emergency situations. For example, an improvised explosive device (IED), bomb blast, rollover, explosion, accident, gas leak and so forth may not only damage or even render inoperable the vehicle, but may also temporarily incapacitate the occupants of the vehicle. When such an event occurs the occupants are subjected to violent physical effects which can severely alter their cognitive reasoning capabilities, this coupled with chaotic life threatening situations, stress and confusion makes it even more difficult for soldiers to perform emergency egress and survival procedures. This invention helps to reduce this problem by making the restraint belts easier to locate, see, identify, and grasp for expedient cutting and hence the saving of lives under these intense and chaotic emergency egress conditions.
Furthermore, during such an event, the vehicle safety belts may become locked and intermingled or entwined with other straps either present within the vehicle or used to secure or otherwise carry gear and other equipment in the vehicle. When this happens it may be difficult to identify the seat belt. In addition to the restraint belts being intermingled or entwined with other straps, there is also a danger that the shoulder belts will be caught in a “Gear Valley” on the soldier. Soldiers wear great amounts of gear and equipment known as Body Borne Equipment (BBE) on their chests (ammo pouches, Improved First Aid Kit (IFAK), flashlights, radios, grenade pouches, etc.). Such BBE can entrap, hide, and obscure the shoulder belts, for example, if a safety belt becomes wedged in between two ammo pouches the safety belt will be difficult to see or locate. The gap between two pieces of equipment, such as two ammo pouches, is referred to as a “Gear Valley”. In addition to other belts and straps intermingling with the restraint belts present in the vehicle, the restraint belts may become difficult to see, locate, and identify even on the soldier's chest because of the “Gear Valley” effect and comingling with the multitude of chest mounted gear. In addition to the problem of the Gear Valley, soldiers also at times will wear gas masks. When wearing a gas mask a soldier's close-in vision is degraded, especially around his own chest and body—so the addition of tactile and visual indicators to the belts is a huge advantage for them—especially when helping others who may not be able to see their own belts.
In these situations it is oftentimes necessary for the vehicle personnel to release themselves from the vehicle seat belts and escape from the vehicle. For example, if the vehicle is in water or on fire, serious injury or death can result unless the vehicle occupants quickly escape from the vehicle.
However, in such emergency situations, a rapid escape from the vehicle by unlatching the seat belt may not be practical or possible if the release buckle is jammed or inoperable. For example, if the vehicle occupant is blinded by smoke, debris, eye damage, total darkness or the like, he or she may not be able to quickly identify the restraint seat belt to cut the seat belt apart with a knife. This is particularly true where the restraint seat belt is intertwined with other belts present within the vehicle or in a Gear Valley which results in excessive search and fumble time in order to find the proper seat belt to cut and free the personnel from the vehicle.
The proper identification of the seat belt by the vehicle occupants during an emergency situation is particularly serious for vehicle occupants that have been injured or rendered unconscious so that it is impossible for the occupants to extricate themselves from the vehicle. In these situations, rescuers must be able to rapidly enter the vehicle and identify and cut the personnel restraint seat belts in order to free the occupants. As such, these rescuers face the same difficulties in the proper identification of the restraint seat belt during the rescue operation.
The present invention provides a personnel restraint seat belt which overcomes many of the above mentioned disadvantages of the previously known seat belts.
In brief, the restraint seat belt of the present invention comprises an elongated flexible web having a front surface, a rear surface, and two spaced apart side edges. The seat belt itself is typically constructed from a woven fabric although other materials may be used without deviation from the spirit or scope of the invention.
A distinguishing feature is provided adjacent at least one and preferably both of the side edges of the web. This distinguishing feature provides a rapid identification of the personnel restraint seat belt since the distinguishing feature is used only on personnel restraint seat belts and no other types of belt, gear, or equipment.
One or more different types of distinguishing features may be utilized in accordance with the present invention. For example, the distinguishing feature can comprise a plurality of bumps which protrude outwardly from either the front or rear surface, or both, adjacent one or both side edges of the web. Since these bumps protrude outwardly from the web, the bumps provide a tactile feedback so that the seat belt can be immediately identified and cut to free the personnel from the vehicle. This tactile feature will also work with soldiers/occupants who are wearing gloves, as typically soldiers wear combat protective gloves. These tactile distinguishing features can also be either illuminated, luminous, or reflective and/or be a combination of any of these features.
Alternatively, the distinguishing feature comprises a side edge having a cross-sectional shape and area which differs from the cross-sectional shape and area of the central portion of the seat belt web. Thus, the side edges of the seat belt web provide a tactile feedback which facilitates rapid identification of the seat belt so that it may be cut and free the vehicle occupant.
In a still further modification, the distinguishing feature includes one or more color strips adjacent the side edges of the web. These color strips may be either illuminated, i.e. powered, or simply highly reflective or luminescent. In any event, the seat belt web may be easily and rapidly identified by the light reflected from the seat belt web or, alternatively, light emitted from the seat belt web. The illumination feature can be automatically activated by sensors which activate the system when an accident, rollover, or crash occurs.
In a still further modification, the side edges of the seat belt web include a plurality of cut outs. These cut outs again provide tactile feedback to the vehicle occupants, or a rescuer, to facilitate the rapid identification of the seat belt web. This rapid identification of the seat belt web enables the seat belt web to be quickly cut and the vehicle personnel quickly freed.
In a still further modification of the invention, the front side of the web has a color that differs from the rear side of the web. For example, the front side of the web, i.e. the forwardly exposed side, may be a dull green or brown color for its camouflage effect, while the rear side of the seat belt web is a brightly colored non-camouflage color, such as orange. Consequently, in the event that the seat belt is attached improperly or twisted, at least a portion of the rear side of the seat belt will become visible and provide a clear and instantly recognizable indication that the seat belt is improperly connected. Restraint belt effectiveness can be severely diminished if the belt has even one twist in it, the fibers and webbing strands are designed to resist linear forces and when the belt is positioned in a non-linear configuration (i.e. twist) the ability of the strands to react to forces it is not designed for can severely degrade its effectiveness. The improper connection of the seat belt, of course, may otherwise result in injury to the personnel.
A better understanding of the present invention will be had upon reference to the following detailed description when read in conjunction with the accompany drawing, wherein like reference characters refer to like parts throughout the several views, and in which:
With reference first to
With reference now to
Still referring to
For example, as shown in
Alternatively, the strips 26 may be replaced by an electrically powered device, such as a fiber optic illuminated at one end or an electroluminescent (EL) panel, or any other electrically powered device. Flexible thin film conductors will permit circuitry to be embedded into or onto the restraint belts to power any such illumination device as needed. In these situations, the use of the powered electric device completely eliminates the need to use external light to identify the seat belt web 16.
With reference now to
Preferably, the plurality of spaced bumps 28 are of sufficient size and texture or hardness that a person can quickly and easily locate and differentiate a seat belt including the plurality of bumps from another belt that does include a plurality of bumps that may be located nearby, for example a backpack belt, a sling for a gun or a belt associated with other gear. Thus, in certain embodiments, the plurality of spaced bumps 28 are and are made from different materials of various durometers and surface coefficient of friction values, for example; a hard plastic material including, but not limited to, a nylon, a polyolefin or a polyester. In certain embodiments the plurality of spaced bumps 28 have a height, as measured from the surface 28 of the web 16 that is at least 1/32 of an inch. In certain embodiments the plurality of spaced bumps 28 have a height, as measured from the surface 28 of the web 16 that is at least 1/16 of an inch. In certain embodiments the plurality of spaced bumps 28 have a height, as measured from the surface 28 of the web 16 that is at least ⅛ of an inch. These heights have been provided as illustrative examples of possible configurations but are not to be considered limiting in nature of bump height. In addition to the height feature of the bumps they may also improve human touch detectability by having a different coefficient of friction (or possibly similar if desired) surface unlike that of the belt they are attached to, for example, the belt may be smooth to the touch and the bumps may have a rough, semi-gripping, textured, etc. surface to further distinguish the bumps from the belt features.
With reference now to FIGS. 5 and 6A-6F, the bumps 28 may take any of several different forms. For example, in
In operation, the bumps 28 provide a tactile feedback which enables the user or a rescuer to rapidly identify the seat belt web so that it may be cut and the vehicle occupant freed from the vehicle. Additionally, the bumps 28 are preferably aligned on the web 16 so that they do not register with each other when the web 16 is coiled in order to minimize the thickness of the coil.
With reference now to
Although the edge configuration 30 illustrated in
Regardless of the actual shape of the edge configuration, the edge configuration 30 provides tactile feedback to an occupant of a vehicle during an emergency situation and/or to a rescuer so that the seat belt web 16 may be easily and rapidly identified. Once identified, the seat belt web 16 may be released or cut and the vehicle occupant freed.
With reference now to
It is not necessary that the cut outs 32 be combined with three-dimensional bumps as shown in
As shown in
With reference now to
However, the opposite side 20 of the web 16 is colored a completely different and contrasting color, such as bright orange. Consequently, in the event that the seat belt is twisted as shown in
From the foregoing, it can be seen that the present invention provides significant improvements in seat belt technology which are particularly suitable for military uses. However, no undue limitations should be drawn therefrom and, instead, the present invention may be used on non-military, as well as military applications.
Having described the invention, it can be seen that the present invention provides several important advances in seat belt technology. Having described the invention, however, many modifications thereto will become apparent to those skilled in the art to which it pertains without deviation from the spirit of the invention as defined by the scope of the appended claims.
This patent application is a continuation-in-part of U.S. patent application Ser. No. 13/916,725 titled “Personal Restraint Seat Belt” (ARL 11-73) filed on Jun. 13, 2013 which claims the benefit of U.S. Provisional Patent Application No. 61/659,214 titled “Lighted Egress Apparatus” (ARL 09-38P) filed on Jun. 13, 2012; the entire contents which are hereby incorporated by reference herein including all attachments and other documents that were incorporated by reference in U.S. Provisional Patent Application No. 61/659,214. This patent application is related to U.S. Non-Provisional patent application Ser. No. 13/916,745 (ARL 09-38) also titled “Lighted Egress Apparatus” and filed on Jun. 13, 2013 the contents of which are hereby incorporated by reference herein.
The invention described herein may be manufactured, used, and licensed by or for the United States Government.
Number | Date | Country | |
---|---|---|---|
61659214 | Jun 2012 | US | |
61659214 | Jun 2012 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 13916725 | Jun 2013 | US |
Child | 14693538 | US | |
Parent | 13916745 | Jun 2013 | US |
Child | 13916725 | US |