The present invention relates to a carrier system for use with garments such as body armor vests.
Whether in police or security operations, military operations other than war, or combat, the need for ballistic resistant garments or body armor is well established. Body armor vests are garments with pouches that are adapted to contain pieces of ballistic armor. Ballistic armor generally comprises ceramic or metallic plates for the protection of portions of a wearer's body. The vests are often constructed of flexible fabric that is sufficiently durable for the contemplated application.
Body armor capable of offering enhanced protection from higher caliber projectiles or those protecting a greater amount of surface area of the body can be heavy. This load is borne entirely on the shoulders of the user.
Current body armor systems are typically adapted for the circumstances of use. For example, in policing embodiments, a body armor vest might be outfitted with various additional pockets, loops, or straps for carrying required policing equipment. The body armor vest is attractive as a carrier system because it frees the waist and legs of the individual, enabling a greater range of ambulatory activity. Additional gear such as backpacks, armament or mobile communication equipment are often carried on top of the body armor using shoulder straps thereby adding more load to the shoulders. Straps can also interfere with visibility, movement, and may need attention from the wearer if they break or need adjustment. Straps can also allow the load to be further from the wearer allowing the load to shift in difficult terrain.
A disadvantage of conventional body armor carrier systems is that it transfers much of the weight of the equipment, ammunition, etc., to the shoulders of the wearer. Of course, this is in addition to the weight of the armor or any shoulder born back pack. In some military applications, for example, the combined weight of armor and equipment may be 100 pounds or more. This arrangement can rapidly lead to fatigue and, in some cases, compression of the spine. Spinal compression or back injury has become common among some military personnel because of such great loads.
Some conventional efforts to address this have involved arches or similar supports cantilevered over the wearer's shoulders. Unfortunately, this approach can be unstable and may create a moment that works to apply a negative force to the abdomen.
It would be desirable to have a carrier system that enables a person wearing a ballistic vest freedom of movement for ambulatory activity without overloading the back or abdomen of the wearer. Further it would be desirable if the carrier system assisted in distributing other shoulder borne loads to the waist without the need for additional equipment.
This disclosure describes a carrier system for use with ballistic garments having a shoulder strap adapted to transfer a shoulder load to the shoulder of a user having a flexible and adjustable waist strap adapted to encircle the user's waist. The waist strap has at least two ends and a fastening device for detachably securing the ends and a semi-rigid upright support member attached to the waist strap at a portion of the waist strap substantially midway between the waist strap ends and corresponding to the user's back. The upright support member extends vertically for a desired length along a user's back. The upright support member has a side facing the user, an opposing exterior side, and an upper edge with at least one portion of the upper edge extending in a vertical direction beyond the height of the user's shoulders.
In an embodiment, the upper edge extends in a vertical direction up to but not exceeding the height of the wearer's chin, and not substantially extending horizontally over the wearer's shoulder.
An embodiment of the carrier system is that it is adaptable for use with a body armor vest.
In another embodiment the upright support member has an upper edge with at least one tab that extends in a vertical direction beyond the height of the user's shoulders adaptive to receive at least a portion of any shoulder load holding the load in compression through the upright support member and directly to the hips of the user. In such an embodiment, as before, the upright support member does not extend over the wearer's shoulders.
In yet another embodiment the at least one tab has two or more tabs situated on the upper edge at a point corresponding laterally to the user's shoulders. These tabs may lift shoulder straps or a loaded vest.
In another embodiment, the upright support member is ergonomically contoured to follow the contour of the user's back.
In another embodiment, the upright support member is attached to the belt in a manner that permits the upright support member to rotate laterally from side to side with respect to the belt.
The support member may further have at least one cushion situated on a side facing the back or hips of the user.
An aspect of another embodiment of the carrier system is a body armor carrier system, where the carrier system has a body armor vest having a downwardly open sleeve or support pocket on the back that situates over the upright support member upper edge where the body armor load is distributed over the upper edge and to the hips of the user through the upright support member and belt.
Another aspect of the invention is a body armor vest, with a fabric vest having at least one armor pouch adapted to receive a piece of armor with the rear of the fabric vest facing away from the user having at least one downwardly open guiding sleeve or support pocket. There is at least one flexible first side portion connecting the vest front with the vest rear, and at least one flexible second side portion connecting the vest front with the vest rear. The system also includes an adjustable waist belt having a semi-rigid upright support member extending in a vertical manner for about the length of a wearer's back, attached to the belt at the portion of the belt corresponding to the wearers back, the support member having an upper edge; and wherein the support member is adapted to engage with the support pocket or guiding sleeve and the upper edge of the support member is adapted to receive a load.
In another embodiment the additional loads, such as armament, communications devices, backpacks or military issue gear, may be quickly mounted or removed from the carrier system without the need to use an additional backpack frame and without the need to fasten loads to the carrier system.
In yet another embodiment the loads over the body armor will be closer to the body than with conventional frames systems providing a smaller user profile from front to rear with minimal restrictions to user mobility. Additionally, this may aid in improved peripheral visibility and a lower center of gravity for increased stability.
In yet another embodiment the carrier system is simple to construct with low cost to manufacture and with increased reliability due to few parts that can fail. It is lightweight and compact requiring no modifications or adjustments to be made by the user when carrying additional loads.
These and other advantages of the invention will be further understood and appreciated by those skilled in the art by reference to the written specification, claims and drawings.
The present disclosure relates to a carrier apparatus and carrier system for use with garments such as body armor vests. With reference to the drawings, the present disclosure is a carrier system that enables ambulatory activity by transferring the load from the shoulders to the hips of the user without overloading the back of the user. The carrier system may take any of a variety of embodiments disclosed herein.
As may be seen in
The material of the upright support member 15 may be rigid or semi-rigid and made of metal or plastic, polycarbonate, acrylic, carbon fiber or a combination of materials including structural foam with the thickness of material relative to the vertical loading. However, polycarbonate has proven to be an effective and light weight material sufficient to bear the weight of contemplated loads at a relatively reasonable expense, and further is reasonably amenable for use in manufacture.
The central upper edge 25 extends in the vertical direction, at or below the height of the wearer's shoulders (not shown). The upright support member has the central upper edge 25 and features at least two upper tabs 30 or elevated points that extend in a vertical direction greater than the height of the wearer's shoulders. The concept of tab 30 is to lift the load from the shoulder, so it may simply be an elevated or upper portion of support member 15 without reaching or extending over the shoulder of the wearer. The at least one tab 30 may be a first tab 32 and a second tab 33 situated on the central upper edge 25 at a point corresponding to the wearer's shoulders. The spacing of the first tab 32 to the second tab 33 is between 6 inches and 18 inches allowing for a shoulder strap from an additional back borne load (
The difference in height between the two upper tabs 30 and the central upper edge 25 allows for the user to look up without contacting the central upper edge 25 of the upright support member 15. Also, for the optional embodiment shown, the upright support member 15 is be ergonomically contoured to follow the contour of the wearer's back.
In some embodiments, upright support member 15 may be attached to the belt 5 at mid-portion 20 in a manner that permits the upright support member 15 to rotate laterally with respect to the waist strap as a wearer might lean from side to side. The optional pivoting attachment 35 may be a single point such as a central pin or multiple points. In addition, some embodiments may have an upright support member 15 that further has at least one cushion 40 situated on a side facing the back or hips of the wearer, as shown in
Also shown in
The load shown in
Optionally, the upright support member 15 has the central upper edge 25 below the shoulder height approximately at the junction of the seventh cervical vertebrae and the first dorsal vertebrae and the two upper tabs 30 extending in a vertical direction above the height of the wearer's shoulders.
As shown in
The present approach is directed to communicate a downward force along the essentially upright support member 15, so as to load belt 5 downwardly at the hips of the wearer, as illustrated with arrow 75. An extension in a horizontal direction over the shoulders of the wearer, while possibly lifting the straps off shoulders, would displace the force away from the support member—i.e., away from arrow 75. Substantially extending over the shoulder can unnecessarily create a bending moment on the device. To address this moment, that design would require choosing a material with suitable flexural rigidity, such as a stiff, expensive form of carbon fiber. In addition, such a bending moment could create undesirable coupling forces as the device may attempt to pivot about the wearer. This might apply a horizontal force to belt 5, causing it to press against the abdomen.
In some embodiments, upright support member 15 may be attached to the belt 5 in a manner that permits the support member to rotate laterally with respect to the belt 5. In other embodiments, upright support member 15 may define two cutouts as discussed above; appropriately sized cutouts in opposing edges may enable a semi-rigid support member 15 that provides similar rotary flexure.
In some embodiments, upright support member 15 may further comprises at least one cushion 40 situated on a side facing the back of the wearer.
In the foregoing description, it will be readily appreciated by those skilled in the art that modifications may be made to the invention without departing from the concepts disclosed herein. Thus, while the description above refers to particular embodiments, it will be understood that many modifications may be made without departing from the spirit thereof.
The present application is a continuation of U.S. patent application Ser. No. 14/150,409, filed Jan. 8, 2014, which is a continuation-in-part of U.S. application Ser. No. 12/800,772 titled “Carrier System” filed on May 21, 2010, which claims the benefit of the priority of U.S. Provisional Application No. 61/180,524, filed May 22, 2009, all of which are incorporated herein by reference in their entirety.
Number | Name | Date | Kind |
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7337935 | Glanville | Mar 2008 | B1 |
20050082330 | Fehlberg | Apr 2005 | A1 |
20060266781 | Howell | Nov 2006 | A1 |
Number | Date | Country |
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10000595 | Oct 2001 | DE |
WO-2008089128 | Jul 2008 | WO |
Number | Date | Country | |
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20200069036 A1 | Mar 2020 | US |
Number | Date | Country | |
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61180524 | May 2009 | US |
Number | Date | Country | |
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Parent | 15484518 | Apr 2017 | US |
Child | 16544780 | US | |
Parent | 14150409 | Jan 2014 | US |
Child | 15484518 | US |
Number | Date | Country | |
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Parent | 12800772 | May 2010 | US |
Child | 14150409 | US |