This invention relates to protective vests, and more particularly, to body armor commonly known as a ballistic vest, which incorporates a deltoid arm protection system attachable to the ballistic vest.
Ballistic vests have been in use for many years and have saved the lives of military personnel and law enforcement officers. As a result, the military and law enforcement agencies have made it mandatory for soldiers and officers to wear a ballistic vest while on duty.
Ballistic vests have been available in recent years as a protective panel having overlying layers of a fabric made from woven high tensile strength fibers. Woven fabrics from an aramid fiber known as Kevlar, for example, have been used successfully in ballistic vests because of the high energy absorption properties of the fabric material. The material is also reasonably light in weight and flexible, which provides improved comfort when compared with previous vests which were made of metal and were therefore heavier and more rigid. The comfort of a ballistic vest is extremely important, especially to soldiers and law enforcement officers, because of the heat build-up that occurs from wearing a heavy and inflexible vest for the long hours in use. Resistance to projectile penetration is a principle factor in designing a ballistic vest; and added protective layers can offer greater protection against projectiles having the higher threat levels, but added protective layers also add undesired weight and inflexibility of the vest.
In addition to woven Kevlar fabric layers, ballistic vests have been made from other high strength fibers and composites to reduce weight and improve flexibility of the vest. However, ballistic vests using the lighter, more flexible materials also must offer the required minimum levels of protection against penetration by different types of projectiles. The more flexible the ballistic fabrics are, the more bunching and backface deformation occurs upon impact from a projectile. A vest must not be too flexible where is cannot protect the wearer.
Ballistic vests are regularly certified by subjecting them to ballistics testing to measure their ability to protect against different projectiles fired from different types of weapons at various angles. One ballistic test commonly used in the industry is the National Institute of Justice (NIJ) Standard 0101.03 Threat Level IIIA, which, in general terms, is a high performance standard requiring that the ballistic vest prevent penetration of specified 0.44 Magnum and 9 mm rounds fired at a velocity of at least 1400 ft/sec. In addition to prevent such projectile penetration, “backface deformation” also is a required test factor in the NIJ Standard 0101.03 Threat Level IIIA certification test. Backface deformation measures the trauma level experienced by a projectile that does not penetrate the test panel. According to this test, the maximum allowable backface signature (bfs) containment for soft body armor requires a maximum allowable bfs of 44 mm for 0.44 Magnum and 9 mm rounds.
A problem associated with currently available ballistic vests is the inability to protect the wearer from projectiles entering the body through the upper arm or deltoid area or armpit. Considering a vest does not protect the upper arms/armpit area, the wearer is vulnerable to projectiles, particularly from snipers. This specific problem has tried to be addressed by incorporating a ballistic device to be worn around the bicep of the user. This bicep device was designed to also cover the deltoid area of the wearer. The bicep device has proven to be ineffective at stopping projectiles from entering the body through the armpit area in all instances because when a wearer moves their arms they expose the armpit. Arm movement prevents the bicep device from protecting this area at all times. Previous bicep devices also create excessive heat build-up for the wearer.
Consequently, a need exists for an improved vest design which addresses the drawbacks of previous vest designs, namely, to provide a deltoid arm protection system which provides protection at all times and reduces heat build-up for the wearer.
The present invention provides a deltoid arm protection system for a ballistic vest. The ballistic vest preferably comprises a plurality of overlying first flexible layers arranged in a stack on a strike side of the vest, and a plurality of overlying second flexible layers arranged in a stack on a body side of the vest. Preferably, each first flexible layer comprises a thin, flexible, woven fabric layer made of high tensile strength polymeric fibers. The individual woven fabric layers form a soft, flexible woven fabric first panel for the vest. Preferably, each second flexible layer comprises a thin, flexible imperforate fiber-reinforced plastic sheet comprising an array of plastic fibers embedded in a thermoplastic resinous matrix that forms each film sheet. The second layers overlie each other and as a combination are referred to as a second panel of the vest. The first and second panels are both located in the front and rear of the vest. Although this is a preferred ballistics package, any type and number of ballistic packages which meet any threat level are contemplated for use in the present invention. The vest of the present invention preferably is worn on the outside of the wearers' clothing or uniforms and is commonly referred to as an outer tactical vest or OTV.
The ballistic vest of the present invention incorporates fasteners to fasten the front panel to the back panel, such as hook and loop fasteners, buckles, zippers and other fastening systems.
More particularly, the deltoid arm protection system of the present invention incorporates a deltoid cover for each shoulder area made of a ballistic package similar to the ballistic vest, which is attached to the ballistic vest to protect the deltoid/armpit area of the wearer. The deltoid cover is directly attached to the ballistic vest by loops and straps. The deltoid cover is fixed with respect to the vest and is not attached to the arm of the wearer so when the arm moves no gaps are created which would be susceptible to a projectile. The deltoid cover is contoured to allow arm movement without being hindered. The deltoid cover is designed so that it articulates under the back of the vest so that it does not bind with backpacks, etc. The deltoid cover also includes a weapon pad on its outer surface for positive engagement of the end of the weapon. Additional hooks/loops/straps also can be located on its outer surface for the attachment of accessories. Optionally, a bicep cover also is incorporated into the system for further protection of the bicep area of the arm.
These and other features and advantages of the present invention will be more fully understood by reference to the drawings and following detailed description wherein:
A ballistic vest system 10 of the present invention is shown in
As also can be seen in
The back edge contour 28 is shaped so that it can be positioned under and articulate under the vest so that it does not bind with a backpack or other gear typically worn by military or police officers. Also positioned on the front surface of the deltoid cover is a rubberized weapon pad 40 which provides a positive engagement for the butt of a rifle to steady the weapon during firing. Any rubberized material, such as neoprene, can be used to provide the necessary friction between the butt of the gun and the pad for this purpose. Also positioned on the outer surface of the deltoid cover can be loops, hooks or straps, collectively referred to as reference numeral 42 for the attachment of additional accessories, such as canteens, first-aid pouches, ammunition clips, etc. used by military and police officers.
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The deltoid arm protection of the present invention is designed to stop projectiles from entering the side of the vest in the shoulder area and has been designed to have an asymmetrical anatomical shape which is contoured to allow movement of the arm without hindrance. The attachment system is designed so that the deltoid cover is fixed to the vest so that no gaps are created in the shoulder/armpit area during arm movement. The deltoid cover has also been designed so that it articulates in the back of the vest underneath the vest to prevent interference with additional accessories. The deltoid cover and bicep cover can be made of soft or hard armor pieces, or semi-rigid armor components. The weapon gripping area on the front of the deltoid cover has a molded three-dimensional surface to provide a friction grip for a rifle.
Although the present invention has been shown and illustrated with respect to an embodiment thereof, the invention is not to be so limited since changes and modifications can be made therein which are within the scope of the invention as hereinafter claimed.