The present disclosure generally relates to systems to protect windows in a structure, and more particularly, a system for boarding-up windows.
During inclement weather (for example, wind storms, hail storms), civil disturbances, vandalism or trespass, objects may be hurled against the glass of the windows of a building and may break or damage the glass.
To prevent such breakage or damage, property owners may board-up the windows of the building. To do so, boards are placed over the glass and secured to the wall or door of the building by interference fit or, more typically, nailing or screwing bolts through the board and into the wall or door in which the window is disposed. While this may prevent the window glass from breaking, these protective measures damage the structure and appearance of the wall or door because screws/nails tear into the structure of the wall/door when the boards are installed and tear away material from the wall/door when the boards are taken down and the screws/nails are removed. Interference fit clips only provide secure protection for the window glass when tightly wedged between the board and the wall/door frame around the glass. This interference fit tears and abrades the surface of the wall/door frame. Each time the boards are removed, damage to the wall or door is inevitable. Holes, splintering, cracking and the like in brick, grout, wood, aluminum siding etc. from the fasteners must be filled so rain and moisture do not get in and cause rot or degradation of the building material. Similarly, abrasion and recesses in the building material around the window from interference clips must be repaired. Over time, such repairs tend to prematurely age the appearance of the building, and if not done correctly may accelerate degradation of the structure itself. A better method of protecting windows is needed.
In one aspect of the present disclosure, A foundation for a system for protecting a surface is disclosed. The foundation comprises a base, a suction assembly, a shield and one or more supports. The base has an inner face and an outer face disposed opposite to the outer face. The suction assembly is mounted to the inner face. The suction assembly may include a suction member having a rim, and a pump. The suction member may be concave in shape and configured to form a chamber with the surface when the surface is disposed against the rim. The suction member is configured to be releasably sealed against the surface when air is removed from the chamber. The pump is in fluid communication with the chamber. The pump is configured to draw air out of the chamber. The shield may be mounted to the outer face and cover at least a portion of the outer face. The shield is disposed opposite to the suction member and is configured to obstruct penetration by a fastener into the portion of the outer face covered by the shield. The one or more supports are mounted to the outer face. Each support includes a ledge that extends outward from the base.
In another aspect of the disclosure, a method of boarding-up a window disposed in a structure is disclosed. The window includes a surface. The structure may be a wall, door or roof, and the surface may be glass or mirror. The method may comprise attaching with suction a plurality of foundations on the surface. Each foundation may include a base, a suction assembly, a shield and one or more supports. The base has an inner face and an outer face disposed opposite to the outer face. The suction assembly is mounted to the inner face. The suction assembly may include a suction member and a pump. The suction member has a rim. The suction member may be concave in shape and is configured to form a chamber with the surface when the surface is disposed against the rim. The suction member is configured to be releasably sealed against the surface when air is removed from the chamber. The pump is in fluid communication with the chamber and is configured to draw air out of the chamber. The shield is mounted to the outer face and covers at least a portion of the outer face. The shield is disposed opposite to the suction member and is configured to obstruct penetration by a fastener into the portion of the outer face covered by the shield. The one or more supports are mounted to the outer face. Each support may include a ledge that extends outward from the base. The method may further include disposing a first board-sheet on one or more supports of a first foundation of the plurality of foundations, securing the first board-sheet to the surface by affixing with fasteners the first board-sheet to the base of the first foundation, disposing the first board-sheet on a first support of a second foundation of the plurality of foundations, and securing the first board-sheet to the surface by affixing with fasteners the first board-sheet to the base of the second foundation.
In yet another aspect of the disclosure, a system is disclosed for boarding-up a window disposed in a structure. The window includes a surface. The structure may be a wall, a door or roof, and the surface may be glass or mirror. The system may comprise: a plurality of foundations mounted on a surface, and a first board-sheet. Each foundation may comprise: a base, a suction assembly, a shield, and one or more supports. The base may have an inner face and an outer face disposed opposite to the outer face. The suction assembly may be mounted to the inner face. The suction assembly may include a suction cup and a pump. The suction cup has a rim. The suction cup defines a chamber with the surface when the surface is disposed against the rim. The suction cup is configured to be releasably sealed against the surface when air is removed from the chamber. The pump is in fluid communication with the chamber. The pump is configured to draw air out of the chamber. The shield is mounted to the outer face and covers at least a portion of the outer face. The shield is disposed opposite to the suction cup and is configured to obstruct penetration by a nail or a screw into the portion of the outer face covered by the shield. The shield may be a metal plate. The one or more supports may be mounted to the outer face. Each support may define a channel and include a ledge disposed between a first and second sidewalls. The ledge extends outward from the base and is disposed along an outer face edge of the base. The first board-sheet has a first end and a second end. The first end of the first board-sheet disposed in a first support of each of the first and second foundations, and the second end disposed in a first support of each of the third and fourth foundations.
Reference will now be made in detail to specific embodiments or features, examples of which are illustrated in the accompanying drawings. Generally, corresponding reference numbers will be used throughout the drawings to refer to the same or corresponding parts, unless otherwise specified.
The exemplary system 100 includes a one or more foundations 108 mounted on the surface 106, and one or more board-sheets 110. In the embodiments discussed herein, the foundations 108 are not affixed (e.g., screwed into, nailed onto, interference fit with, or the like) to the structure 104 in which the window 102 is disposed.
Referring now to
Referring now to
The suction member 128 includes a rim 138 (
The pump 130 is in fluid communication with the chamber 140 via the inlet 141 and is in fluid communication with outside the chamber 140. The pump 130 includes a pump actuator 142. The pump 130 is configured to draw air out of the chamber 140 to the environment when activated by the pump actuator 142. The pump actuator 142 may include a display 144 of the level of suction in the suction member 128. For example, in one embodiment such as the one shown in
The cover 132 (
The shield 116 (
As shown in
Referring now to
The threaded member 122 may be a screw or the like. In an embodiment, the threaded members 122 may be stainless steel or the like. In one embodiment, the threaded member 122 (
The board-sheet 110 (see for example
Also disclosed is a method of boarding-up a window 102 disposed in a structure 104, the window 102 including a surface 106, wherein the structure 104 is a wall, a door or a roof, and the surface 106 is glass or mirror or the like. The method may comprise attaching with suction one or more foundations 108 on the surface 106, each foundation 108 including: a base 112 having an inner face 124 and an outer face 126 disposed opposite to the inner face 124, a suction assembly 114 mounted to the inner face 124, a shield 116 and one or more supports 118. The suction assembly 114 may include: a suction member 128 and a pump 130. The suction member 128 has a rim 138. The suction member 128 may be generally concave in shape and is configured to form a chamber 140 with a surface 106 when the surface 106 is disposed against the rim 138. The suction member 128 is configured to be releasably sealed against the surface 106 when air is removed from the chamber 140. The pump 130 is in fluid communication with the chamber 140. The pump 130 is configured to draw air out of the chamber 140 when activated. The shield 116 may be mounted to the outer face 126 and may cover at least a portion of the outer face 126. The shield 116 is disposed opposite to the suction member 128 and is configured to obstruct penetration by a fastener 168 through the shield 116 and into the portion of the outer face 126 covered by the shield 116. The one or more supports 118 may be mounted to the outer face 126. Each support 118 includes a ledge 158 that extends outward from the base 112. The method may further comprise disposing a first board-sheet 110 on a first support 118 of a first foundation 108, and securing the first board-sheet 110 over the surface 106 by affixing with fasteners 168 the first board-sheet 110 to the base 112 of the first foundation 108. The method may further comprise disposing the first board-sheet 110 on a first support 118 of a second foundation 108, securing the first board-sheet 110 over the surface 106 by affixing with fasteners 168 the first board-sheet 110 to the base 112 of the second foundation 108.
In general, the foregoing disclosure finds utility in the boarding up of the surface 106 of a window 102 disposed in a structure 104 (e.g., a wall, door, roof) to protect such surface 106 (e.g., glass, mirror or the like) from damage (cracking, shattering, breaking, etc.)
The system 100 disclosed herein is particularly advantageous because while the foundation(s) 108 and the board-sheet(s) 110 mounted thereon are secured to the surface 106 of the window 102 via the suction member(s) 128, the board-sheet(s) 110 and the foundation(s) 108 are not affixed to the portion of the structure 104 in which the window 102 is disposed and therefore do not damage the structure 104 (e.g., penetration, surface abrasion, holes, splintering/cracking or the like) during installation and/or removal. More specifically, the disclosed system 100 and foundations 108 do not use penetration into the structure 104 by fasteners (e.g., screws, nails or the like) or abrasion by interference fit clips biting against the structure 104 to secure the board-sheets 110 over the surface 106. To the contrary, the structure 104 in which the window 102 is disposed may be free of contact or engagement with the foundation(s) 108 that secure the board-sheets 110 over the surface 106. In addition, the portion of the structure 104 may also be free of contact or fastening engagement with the board-sheets 110 mounted on the foundations 108 when a gap 166 is disposed between the board-sheet 110 and such portion of the structure 104.
Referring now to
Block 1005 of the exemplary method 1000 may comprise preparing the surface 106. The preparing may include washing the surface 106. The preparing may also include drying (or letting air dry) the surface 106 to remove dirt, dust or other material that may effect the strength of the suction of the suction member 128 when installed on the surface 106.
Block 1010 comprises positioning the first foundation 108a (illustrated in
Block 1015 comprises attaching with suction the first foundation 108 to the surface 106 by creating a seal between the suction member 128 of the first foundation 108a and the surface 106. To create the seal, the rim 138 of the suction member 128 is placed generally flushly on the surface 106 and the pump 130 is activated to remove air from the chamber 140 formed by the suction member 128 and the surface 106. This creates a low pressure region inside the chamber 140 of the suction member 128. The atmospheric pressure outside the suction member 128 presses down on the low pressure area inside the chamber 140 of the suction member 128 and creates a suction-based seal.
Block 1020 comprises positioning the second foundation 108b on the surface 106 so that the channels 156 that are defined by one or more supports 118 of the second foundation 108b are oriented to receive the first end 164a of the first board-sheet 110a.
Block 1025 comprises attaching with suction the second foundation 108b to the surface 106 by creating a seal between the suction member 128 of the second foundation 108b and the surface 106. To create the seal, the rim 138 of the suction member 128 is placed generally flushly on the surface 106 and the pump 130 of the second foundation 108b is activated to remove air from the chamber 140 formed by the suction member 128 and the surface 106. This creates a low pressure region inside the chamber 140 of the suction member 128 of the second foundation 108b. The atmospheric pressure outside the suction member 128 presses down on the low pressure area inside the chamber 140 of the suction member 128 and creates a suction-based seal.
Block 1030 comprises disposing a first end 164a of the first board-sheet 110a in the channel(s) 156 of the one or more supports 118 of the first foundation 108a.
Block 1035 comprises disposing the first end 164a of the first board-sheet 110a in the channel(s) 156 of the one or more supports 118 of the second foundation 108b.
Block 1040 comprises securing the first board-sheet 110a over the surface 106 by affixing (e.g., nailing, screwing or the like) with fasteners 168 the first board-sheet 110a to the base 112 of the first foundation 108a. In doing so, the first board-sheet 110a is not affixed to, or in fastening engagement with, the portion of the structure 104 in which the window 102 is disposed, and the foundation 108a is affixed to the surface 106 (of the window 102) but is not affixed to the portion of the structure 104 in which the window 102 is disposed. In other words, the structure 104 is free of penetration or other securing engagement by fasteners 168 used to secure the first board-sheet 110a over the window 102 or to secure the foundation 108 to the surface 106.
Block 1045 comprises securing the first board-sheet 110a over the surface 106 by affixing (e.g., nailing, screwing or the like) with fasteners 168 the first board-sheet 110a to the base 112 of the second foundationa108b. The first board-sheet 110a is not affixed to, or in fastening engagement with, the portion of the structure 104 in which the window 102 is disposed, and the foundation 108b is affixed to the surface 106 (of the window 102) but is not affixed to the portion of the structure 104 in which the window 102 is disposed. In other words, the structure 104 is free of penetration or other securing engagement by fasteners 168 used to secure the first board-sheet 110a over the window 102 or to secure the foundation 108 to the surface 106.
Block 1050 comprises positioning the third foundation 108c on the surface 106 so that the channel(s) 156 defined by the one or more supports 118 of the third foundation 108c are oriented to receive a second end 164b of the first board-sheet 110a.
Block 1055 comprises attaching with suction the third foundation 108c to the surface 106 by creating a seal between the suction member 128 of the third foundation 108c and the surface 106. To create the seal, the rim 138 of the suction member 128 is placed generally flushly on the surface 106 and the pump 130 of the third foundation 108c is activated to remove air from the chamber 140 formed by the suction member 128 and the surface 106. This creates a low pressure region inside the chamber 140 of the suction member 128 of the third foundation 108c. The atmospheric pressure outside the suction member 128 presses down on the low pressure area inside the chamber 140 of the suction member 128 and creates a suction-based seal.
Block 1060 comprises securing the first board-sheet 110a over the surface 106 by affixing with fasteners 168 the first board-sheet 110a to the base 112 of the third foundation 108c.
Block 1065 comprises positioning the fourth foundation 108d so that the channel(s) 156 defined by the one or more supports 118 of the fourth foundation 108d are oriented to receive the second end 164b of the first board-sheet 110a.
Block 1070 comprises attaching with suction the fourth foundation 108d to the surface 106 by creating a seal between the suction member 128 of the fourth foundation 108d and the surface 106. To create the seal, the rim 138 of the suction member 128 is placed generally flushly on the surface 106 and the pump 130 of the fourth foundation 108d is activated to remove air from the chamber 140 formed by the suction member 128 and the surface 106. This creates a low pressure region inside the chamber 140 of the suction member 128 of the fourth foundation 108d. The atmospheric pressure outside the suction member 128 presses down on the low pressure area inside the chamber 140 of the suction member 128 and creates a suction-based seal.
Block 1075 comprises securing the first board-sheet 110a over the surface 106 by affixing with fasteners 168 the first board-sheet 110a to the base 112 of the fourth foundation 108d.
It may be desirable to perform one or more of the blocks shown in
As may be best seen in the embodiment of
As discussed earlier, in an embodiment, the pump actuator 142 (see
The foundations 108 may be removed from the surface 106 by accessing the tab 136 via the gap 166. The tab 136 may be manipulated to break to release the seal of the suction member 128 from the surface 106.
From the foregoing, it will be appreciated that while only certain embodiments have been set forth for the purposes of illustration, alternatives and modifications will be apparent from the above description to those skilled in the art. These and other alternatives are considered equivalents and within the spirit and scope of this disclosure and the appended claims.