Patent Grant
10383449
There is a need for barriers behind which persons can position themselves for protection from ballistics, explosions, and harmful projectiles. In traditionally hostile environments such as war zones, soldiers often dig fox holes or trenches, or utilize natural bunkers for protection. Unfortunately, the threat of harm from gun fire and explosions now exists in areas and settings that previously were considered to be safe from such life-threatening dangers. Residential and commercial areas have, unfortunately, become the setting for deadly gunfire and explosions. In these and other settings, natural barrier formations may not exist, and it is not practicable or suitable to utilize traditional means of protection such as trenches or fox holes.
Applicant discloses a bench that serves as a seating area but also provides protection against gun fire and explosions. The bench, which may be referred to as a barrier bench or an armored bench, protects an area on a protected side of the barrier bench from projectiles originating from an attack side of the barrier bench that is opposite the protected side.
In an example embodiment, the barrier bench comprises at least one backrest panel, which may be an armored panel, and an upper wall that extends upward from the backrest panel. The backrest panel and the upper wall define a first side and a second side opposite the first side. The backrest panel and upper wall are configured to prevent a projectile traveling in a first direction that strikes the first side from penetrating through to the second side.
In an example embodiment, the barrier bench comprises a frame adapted to position the backrest panel in a substantially upward direction relative to a base surface on which the barrier bench rests. In an example embodiment, the frame comprises a first side member that extends in a second direction substantially perpendicular to the base surface and which is configured to contact the base surface in order to support the barrier bench upon the base surface. The frame comprises a second side member that is spaced apart from the first side member along a third direction that is substantially perpendicular to both the first direction and the second direction. The second side member, like the first side member, is configured to contact the base surface and thereby support the barrier bench upon the base surface. A seat member is configured to be attached to both the first and second side members. The seat member forms a plane substantially parallel with respect to the base surface upon which the barrier bench is positioned and is adapted to support a load equivalent to the weight of at least one or more persons.
The frame further comprises a bottom channel member positioned between the first side member and the second side member. In an example embodiment, the bottom channel member comprises a first wall, a second wall, and a base wall that extends between the first and second walls. The first wall is spaced from the second wall so as to define a gap that is configured to receive the backrest panel such that movement of the armored backrest panel along the first direction is blocked by the first and second walls. Movement of the backrest panel along the second direction toward the base surface is blocked by the base wall of the bottom channel member.
In an example embodiment, the frame may still further comprise a support structure that is formed between, and rigidly attached to, the first side wall and the second side wall. The support structure may comprise one or more horizontally and/or vertically arranged members positioned between the first side member and the second side member. The bottom channel member may be attached to the support structure. The backrest panel is positioned to abut the support structure when a portion of the backrest panel is positioned in the bottom channel member. In an example embodiment, the support structure is disposed at an angle relative to the base surface so that the panel is urged by gravitational forces to abut or lean against the support structure.
In an example embodiment, the barrier bench frame further comprises a support member secured relative to the backrest panel and adapted to receive at least a portion of the upper wall. The upper wall abuts the support member and extends upward relative to the support member and the supporting surface. The barrier bench frame may also comprise a first side channel secured to the first side member and second side channel secured to the second side member. The first and second side channels each extend away from the supporting surface and beyond the upper edge of the backrest panel. The upper wall is received in the first and second side channels and abuts the support member so as to be secured relative to the backrest panel. In an example embodiment, at least a portion of the upper wall extends above an upper edge of the backrest panel and at least a portion of the upper wall extends below the upper edge of the backrest panel.
This Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This Summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter. Other features are described below.
The following description of the illustrative embodiments may be better understood when read in conjunction with the appended drawings. It is understood that potential embodiments of the disclosed systems and methods are not limited to those depicted.
Applicant discloses herein a bench that is constructed to serve as a barrier from ballistics and explosions. The bench, which may be referred to as a barrier bench, serves the traditional role of providing a seating area while also providing protection from ballistics and explosions originating from an opposite side of the barrier bench. The barrier bench may comprise one or more panels or plates that are adapted to repel ballistics and blasts. The barrier bench further comprises a series of interconnected members that together form a frame which serves to position the one or more panels in a relatively upright position so as to form a barrier against ballistics and explosion blasts. The barrier bench also comprises an upper wall that extends upward beyond the one or more panels. The one or more panels and upper wall define a first side and a second side opposite the first side. The one or more panels and upper wall are configured to prevent a projectile traveling in a first direction that strikes the first side from penetrating through to the second side.
Side members 120 and 130 are spaced apart from each other along a direction (designated direction B) that is substantially perpendicular to the upwardly direction C from supporting surface 102. Side members 120 and 130 are configured to interface with and support seat member 140. Any suitable mechanism may be employed to secure seat member 140 relative to side members 120 and 130. In an example embodiment, side members 120 and 130 have one or more apertures formed therein adapted to receive bolts 127, 137 or similar mechanisms that extend through the apertures and through aligned apertures formed in seat member 140. In an example embodiment, the apertures are formed in middle portions 123 and 133 of side members 120 and 130. Bolts may be secured relative to side members 120 and 130 and seat member 140 using any suitable fastening means such as, for example, one or more wing nuts. Seat member 140 forms a seating area adapted to support a load equivalent to at least the weight of one or more persons. Seat member 140 may be formed in a plane substantially parallel with respect to surface 102 on which barrier bench 110 is positioned. Seat member 140 may be formed of any suitable material and may be formed, for example, from ballistic resistant material such as metal, masonry, and/or carbon fiber.
One or more backrest panels 150a-c extend in a substantially upward direction (direction C) relative to the supporting surface 102 and are positioned between first side member 120 and second side member 130. In an example embodiment, backrest panels 150a-c extend from proximate the supporting surface 102 to a height proximate that of upper portion 121, 131 of side members 120, 130. Each of backrest panels 150a-c have a first side (designated side A) and a second side (designated side B) opposite the first side with respect to a direction designated direction A in the FIGs. Each of backrest panels 150a-c is configured to prevent projectiles that strike the first side of the panel from penetrating through to the second side. In an example embodiment, backrest panels 150a-c may be armored panels formed from materials such as metal, masonry, and/or carbon fiber capable of withstanding ballistics and blast projectiles.
Backrest panels 150a-c are positioned so as to prevent projectiles from passing from the first side (side A) of barrier bench 110 to the opposite side (side B) of barrier bench 110. Backrest panels 150a-c are arranged side-by-side in the space between side panels 120 and 130 and thereby create a unified boundary to block projectiles. In an example embodiment, armored strips may be placed in the areas where backrest panels 150a-c meet or abut each other and abut side members 120 and 130. Such strips may overlap the edges of backrest panels 150a-c and thereby provide additional protection in the areas where backrest panels 150a-c meet each other and abut side members 120 and 130.
In an example embodiment, the frame of barrier bench 110 may further comprise one or more bottom channel members 160a-c which may be positioned between first side member 120 and second side member 130 and which are secured relative to side members 120 and 130. In an example embodiment, lower bottoms of bottom channel members 160a-c are positioned at or proximate a height equivalent to that of lower portions 122, 132 of side members 120, 130. In an example embodiment, each of bottom channel members 160a-c may comprise a first wall, a second wall, and a base wall that extends between the first wall and the second wall. The base wall may be positioned proximate base surface 102 on which barrier bench 110 may stand. The first wall and the second wall are spaced apart from each other so as to define a gap or channel that is configured to receive one or more of backrest panels 150a-c. Each channel member may comprise a mounting bracket that is adapted to be mounted on a horizontal bar of a support structure. When the mounting bracket is hung on or mounted to the support structure, the channel member is positioned to receive a backrest panel 150a-c.
In an example embodiment, three bottom channel members 160a, 160b, and 160c are distributed across the area between first side member 120 and second side member 130. Each of bottom channel members 160a-c receives a corresponding one of backrest panels 150a-c. When a backrest panel 150a is positioned in bottom channel member 160a, movement of the panel relative to other portions of barrier bench 110 may be limited or restricted in some directions. For example, movement of backrest panel 150a in a direction substantially parallel to base surface 102 and substantially perpendicular to the channel or gap formed by the first and second walls of bottom channel member 160a may be restricted. In other words, with respect to
In an example embodiment, the frame of barrier bench 110 for positioning backrest panels 150a-c may further comprise an upper channel 170. Upper channel 170 may comprise at least a first wall, a second wall, and a base wall. The first wall and second wall are spaced apart and connected by the base wall so as to form a gap configured to receive therein a portion of one or more of panels 150a-c. The gap formed by the upper channel 170 is positioned opposite and faces the one or more gaps formed by the bottom channel members 160a-c. In an example embodiment, upper channel 170 extends from first side member 120 to second side member 130 and is secured relative to side members 120 and 130. Upper channel 170 may be affixed to side members 120 and 130 and/or may be affixed to support structure 152 described below. Upon a portion of one or more backrest panels 150a-c being positioned in upper channel 170, movement of the particular panel may be limited or restricted in some directions. For example, movement of backrest panel 150a in a direction substantially parallel to base surface 102 and substantially perpendicular to the channel or gap formed by the first and second walls of channel member 170 may be restricted. In other words, with respect to
Barrier bench 110 further comprises an upper wall 180. Upper wall 180 extends in a substantially upward direction (direction C) relative to the supporting surface 102 and is positioned between first side member 120 and second side member 130. In an example embodiment, upper wall 180 abuts and extends upward from support member 182 which is positioned proximate the upper portion of backrest panels 150a-c. Support member 182 prevents or limits movement of upper wall 180 toward the supporting surface. At least a portion of upper wall 180 is received into side channels 184 and 186. Side channels 184 and 186 limit movement of the upper wall 180 in directions A and B. Upper wall 180 is configured to prevent projectiles that strike a first side of upper wall 180 from penetrating through to the second side. Upper wall 180 is positioned so as to prevent projectiles from passing from the first side (side A) of barrier bench 110 to the opposite side (side B) of barrier bench 110. In an example embodiment, upper wall 180 overlaps with backrest panels 150a-c. For example, a lower portion of upper wall 180 may be positioned vertically at a position closer to the supporting surface than the upper edge or portion of backrest panels 150a-c. Upper wall 180 in combination with backrest panels 150a-c thereby create a unified boundary to block projectiles. In an example embodiment, upper wall 180, side channels 184 and 186, and support member 182 may be formed from a ballistic resistant material such as, for example, steel, masonry, and/or carbon fiber. In an example embodiment, all or a portion of upper wall 180 may be formed from a transparent or semitransparent material that allows a person to view objects and people on the opposing side of upper wall 180. For example, all or a portion of upper wall 180 may be formed from ballistic resistant glass. In another example embodiment, all of upper wall 180 may be formed from ballistic resistant material that is not transparent. For example, all of upper wall 180 may be formed from non-transparent ballistic resistant metal. It will be appreciated that while upper wall 180 may comprise a single component, upper wall 180 may comprise a plurality of components that operate in a manner as described.
Barrier bench 110 may comprise support structure 152 which extends in a substantially upward direction (direction C) from lower portion 122 through middle portion 123 to upper portion 121 of side member 120. In an example embodiment, support structure 152 extends upwardly (direction C) relative to supporting surface 102, but at an angle relative to perpendicular from supporting surface 102. Support structure 152 operates to support backrest panels 150a-c so as to maintain backrest panels 150a-c in a substantially upright position relative to supporting surface 102. Gravitational forces exerted on backrest panels 150a-c cause backrest panels 150a-c to abut and be supported by structure 152. In other words, gravitational forces on backrest panels 150a-c may cause backrest panels 150a-c to lean on support structure 152. Support structure 152 may be rigidly attached to side members 120 and 130 using any suitable means. In an example embodiment, support structure 152 may be affixed relative to side members 120 and 130 using bolts or screws 154, 155, and 156 which extend through openings formed in side members 120 and 130 and support structure 152. Fasteners 157, which may be, for example, nuts that secure bolts 154, 155, and 156 in place.
A portion of each of backrest panels 150a-c is received in one of corresponding bottom channel members 160a-c which exert an upward force on panels backrest 150a-c and prevent the received portion of backrest panels 150a-c from moving in direction A substantially parallel to supporting surface 102. More particularly, backrest panels 150a-c may be received in one or more panel receiving gaps 161 created by first, second, and base walls of bottom channel members 160a-c. Bottom channel members 160a-c are secured relative to support structure 152. In an example embodiment, bottom channel members 160a-c may have a first portion that is attached to or forms an interference fit with a horizontal member of support structure 152 and a second part for receiving a portion of backrest panels 150a-c. In another example embodiment, bottom channels 160-c may be attached to side members 120 and 130.
As shown in
Accordingly, backrest panels 150a-c may be supported by and maintained in place by cooperation with bottom channel components 160a-c, support structure 152, seat member 140, and upper channel 170. Backrest panels 150a-c extend in a substantially upward direction (direction C) relative to supporting surface 102. With respect to direction A, backrest panels 150a-c define a first side (side A) and a second side (side B) opposite the first side. Backrest panels 150a-c are configured to prevent a projectile that strikes a first side (e.g., side A) from penetrating and proceeding through the second side (e.g., side B).
It will be appreciated from
Accordingly, Applicant has disclosed a bench that is constructed to serve as a barrier from ballistics and explosions. The bench serves the traditional role of providing a seating area while also providing protection from ballistics and explosions originating from an opposite side of the bench. The bench may comprise one or more panels or plates that are adapted to repel ballistics and blasts and which are positioned in a substantially upward direction relative to the supporting surface. A series of interconnected members that together form a frame serves to position the one or more panels in a relatively upright position so as to form a barrier against ballistics and explosion blasts.
Conditional language used herein, such as, among others, “can,” “could,” “might,” “may,” “e.g.” and the like, unless specifically stated otherwise, or otherwise understood within the context as used, is generally intended to convey that certain embodiments include, while other embodiments do not include, certain features, elements, and/or steps. Thus, such conditional language is not generally intended to imply that features, elements and/or steps are in any way required for one or more embodiments or that one or more embodiments necessarily include logic for deciding, with or without author input or prompting, whether these features, elements and/or steps are included or are to be performed in any particular embodiment. The terms “comprising,” “including,” “having” and the like are synonymous and are used inclusively, in an open-ended fashion, and do not exclude additional elements, features, acts, operations and so forth. Also, the term “or” is used in its inclusive sense (and not in its exclusive sense) so that when used, for example, to connect a list of elements, the term “or” means one, some or all of the elements in the list.
The foregoing description is provided for the purpose of explanation and is not to be construed as limiting the potential embodiments. While the embodiments have been described with reference to preferred embodiments or preferred methods, it is understood that the words which have been used herein are words of description and illustration, rather than words of limitation. Furthermore, although the invention has been described herein with reference to particular structure, methods, and embodiments, the potential embodiments are not intended to be limited to the particulars disclosed herein, as the potential embodiments extend to all structures, methods and uses that are within the scope of the appended claims. Further, to the degree that advantages have been described that flow from the structure and methods; the potential embodiments are not limited to structure and methods that encompass any or all of these advantages. Those skilled in the relevant art, having the benefit of the teachings of this specification, may effect numerous modifications to the potential embodiments as described herein, and changes can be made without departing from the scope and spirit of the potential embodiments as defined by the appended claims. Furthermore, any features of one described embodiment can be applicable to the other embodiments described herein.
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