1. Field
The presently disclosed subject matter relates to devices, systems, and processes useful as sliding gates, and more specifically to a modular panel gate assembly that can provide customizable gate lengths from mass-production components.
2. Description of the Related Art
There are many security gate configurations currently in use to permit vehicular and/or pedestrian access to a commercial/industrial or other site secured by a perimeter or other fence. One configuration is a cantilever slide gate in which one section of the gate is supported above the ground between two support post assemblies and another portion of the gate extends across the opening in the security fence when the gate is in the closed position. U.S. Pat. No. 4,723,374 to Peterson discloses a typical slide gate system, and is incorporated herein by reference.
The gate 202 includes a top primary member 206, a track member 208, a lower tube member 210, and a plurality of vertical members 212 (only one is illustrated). The top primary member 206, the lower tube member 210, and the track member 208 are shown in cross-section in
In order to properly align the track member 208 with the top primary member 206, the top primary member 206 includes a keyway 214 and the track member 208 includes a key 216. The track member 208 also includes a horizontal flange 218 that extends across a top external surface 220 of the top primary member 206 and a vertical flange 220 that extends along a side surface (not numbered) of the top primary member 206. The track member 208 includes an inner surface (not numbered) that defines a track that is configured to receive a truck 224 of a hanger assembly 226 from which the gate 202 is suspended. The vertical flange 222 extends from the track member 298 below the track (not numbered). The key 216 is positioned at a location intermediate the track (not numbered) and the vertical flange 222.
Each support post assembly 204 includes a support post 228, a lower guide assembly 230, and the above-described hanger assembly 226. The hanger assembly 226 includes the truck 224 and a hanger bracket 232 secured to the truck 224. The hanger bracket 232 is secured to the support post 228 by a plurality of U-bolts 234. The lower guide assembly 230 is secured to the support post 228 by a U-bolt 236.
The truck 224 includes a pair of horizontal rollers 238 (only one is visible in
The lower guide assembly 230 engages the sides (not numbered) of lower tube member 210 to limit horizontal displacement of the gate 202 toward and away from the support post 228 as the gate 202 moves between the closed position and the opened position.
Existing cantilever sliding gate systems are typically custom built to meet dimensional requirements specific to each customer. That is, the top primary member 206 and the lower tube member 210 are each made from a single extruded blank that has a length equal to the length required by the end user for the gate 202. In some cases, for a very long section, the track and top primary member can be spliced at alternating locations. Specifically, the track and the top primary member can be located relative to each other so that each track member overlaps two top primary members, and vice versa, and are then joined by welds or other attachment structures. This type of overlap splice provides greater strength when the gate is assembled.
However, custom built sliding gate systems can be labor intensive, can take a long period of time from order to delivery, and can be costly to manufacture and ship to the end user.
Modular systems can reap the benefits of mass production volumes while also permitting designed-in versatility for customization for each end user. The gate modules can be sized to meet standard shipping requirements. Thus, modular sliding gate systems can provide economies of scale from mass-production and significantly reduce shipping and installation cost per gate. In addition, certain strength and operation benefits can be achieved by a modular system.
However, many of the existing and prior modular sliding gate systems might not meet certain ASTM and other industry guidelines. In addition, many of these prior attempts at modular sliding gate systems might not meet customer demands for long-term performance, durability, ease of assembly, etc.
According to one aspect of the disclosure a modular slide gate is movable along a hanger assembly of a cantilever slide gate system between an open position where access through a secured perimeter is permitted and a closed position where access through a secured perimeter is obstructed. The modular slide gate can include a top member, a bottom member, and a plurality of cross members extending between and connected to the bottom member and the at least one wall of the frame member. The top member can include a frame member and a track member. The frame member can include at least one wall. The track member can be configured and dimensioned to receive the hanger assembly and can include at least one wall that extends continuously from and is homogenous with the at least one wall of the frame member.
According to an aspect of the disclosed subject matter, a modular panel gate assembly for a cantilever slide panel gate system can include a support assembly and a hanger assembly secured to the support assembly. The support assembly can suspend the modular gate panel assembly in a cantilevered manner as the modular panel gate assembly moves along the hanger assembly between a closed position where the modular gate panel assembly can obstruct access through an opening in a secured perimeter and an opened position where the modular panel gate assembly can permit access through the opening in the secured perimeter. The modular panel gate assembly can include a first gate panel and a second gate panel. The first gate panel can be disengageable from support assembly and the hanger assembly when the modular panel gate assembly is in the closed position and engageable with the support assembly and the hanger assembly when the modular gate panel assembly is in the opened position. The first gate panel can include a first top member, a first bottom member, and a plurality of cross members. The top member can include a first frame member and a first track member. The first track member can be secured to and extend from the first frame member. The first track member can be configured and dimensioned to receive the hanger assembly. The first bottom member can extend parallel to the first top member. The first plurality of cross members can extend between and connect to the first bottom member and the first frame member. The second gate panel can be engageable with the support assembly and the hanger assembly when the modular panel gate assembly is in the closed position and disengageable with the support assembly and the hanger assembly when the modular gate panel assembly is in the opened position. The second gate panel can include a second top member, a second bottom that can extend parallel to the top member, a second plurality of cross members that can extend between and connect to the second bottom member and the second frame member. The second top member can include a second frame member and a second track member. The second track member can be secured to and extend from the second frame member. The second track member can be configured and dimensioned to receive the hanger assembly. A first connector can be secured to the first and second frame member, a second connector can be secured to the first and second bottom members, and a third connector can be secured to the first and second track members.
The disclosed subject matter of the present application will now be described in more detail with reference to exemplary embodiments of the apparatus and method, given by way of example, and with reference to the accompanying drawings, in which:
The modular panel gate assembly 12 can include a first panel 22 and a second panel 24. The panels 22, 24 can be secured to one another along a joint 26. (Details of the joining of the panels 22, 24 will be discussed below.) Each panel 22, 24 can have the same length dimensions, as shown in
As shown in
Due to the integral formation of the track member 52 with the frame member 48, a common side wall 56, 58 (the common side wall 56 of the first panel is viewable in
The continuous, one-piece extruded top member 26 can provide a further cost and time advantage as compared to the two-piece configuration illustrated in
The cross member 38 can have a longitudinal axis that extends vertically through the center of the cross member 38. As shown in the embodiment of
The details of the top members 26, 28 will now be discussed with reference to
The track member 52 can include the common side wall 56, an upper wall 66, a side wall 68, two horizontal flanges 70, 72, an arcuate flange 74, and an intermediate arcuate flange 76 that all extend the length of the top member 26 and can be formed as a continuous, homogenous component during the extrusion of the top member 26. (The details and function of the arcuate flanges 74, 76 will be discussed below.)
The upper wall 66, the side wall 68, the common side wall 56, and the two horizontal flanges 70, 72 can include inner surfaces 56a, 66a, 66b, 66c, 66d, 66e, 68a, 70a, 72a that define a guide passage 78. The guide passage 78 can receive the hanger assemblies 18 and provides a guide track along which the trucks (not shown—see
Also illustrated in
The inner surface 66a-e of the track member upper wall 66 can include a recess 66a intermediate the two rail surfaces 66b, 66c. The recess 66a can provide clearance for a portion of the truck to pass through the guide passage 78 as the modular panel gate assembly 12 moves between the closed position and the opened position.
With continued reference to
As illustrated by way of example in
As stated above, the track member 52 can include an arcuate flange 74 and an intermediate flange 76. These arcuate flanges 74, 76 can cooperate with the splice pin 82 to provide and maintain alignment of the first panel track member 52 with the second panel track member 54 as the hanger assemblies 18 transition between the track members 52, 54 of the first and second panels 22, 24.
The arcuate flange 74 can extend continuously from and homogenously with the junction 90 of the side wall 68 and the outboard horizontal flange 72. The intermediate arcuate flange 76 can extend from the outer surface 72b of the outboard horizontal flange 72 at a position intermediate the end 72b of the outboard horizontal flange 72 and the arcuate flange 74. The arcuate flanges 74, 76 can curve towards one another and terminate at free ends 74a, 76a that are spaced from one another. The inner surfaces of the arcuate flanges 74, 76 can cooperate with one another to define a cylindrical groove 92 that can extend along the entire length of the top member 26. As viewed in
Other configurations of the splice pin 82 and the groove 92 can be used, such as a pin and a groove having complimentary polygonal cross-sectional shapes. In addition, a typical roller pin can be used. The pin 82 can be hollow or solid, and can be non-symmetrical in cross-section and configured to mate with a non-symmetrical groove.
The cylindrical groove 92 and the splice pin 82 can be dimensioned and configured such that the splice pin 82 can be received in the cylindrical groove 92 by an interference fit. The splice pin 82 can be configured and dimensioned to provide a rigid joint between the track members 52, 54 of the first and second panels 22, 24 by cooperating with the arcuate flanges 74, 76 to at least minimize deflection of the outboard horizontal flange 72 of the first panel 22 relative to the outboard horizontal flange (not numbered) of the second panel 24 as the truck passes from the first panel track member 52 to the second panel track member 54. Thus, the modular panel gate assembly 12 can experience an unimpeded and relatively smooth transition as the panel joint 26 traverses each hanger assembly 18.
The splice assemblies 86 and the central fastener 88 can secure the second panel 24 to the first panel 22 such that the second panel 24 can rigidly extend from the first panel 22 in a cantilevered manner when the second panel 24 is positioned beyond the support post assemblies 14 in a static configuration (for example, when the modular panel gate assembly 12 closes more than half of the gate opening). The splice assemblies 86 and the central fastener 88 can also provide a rigid cantilevered connection between the first and second panels 22, 24 when the second panel 24 does not engage either of the support post assembles 14 while the modular panel gate assembly 12 moves between the closed position and the opened position.
Each splice assembly 86 can include a rectangular splice plate 94 and a plurality of fasteners 96. Each splice plate 94 can include a first plurality of through holes 98 and a second plurality of through holes 100. The first plurality of through holes 98 can be configured and dimensioned to align with a plurality of through holes (not illustrated) that can be provided in the first panel 22. The second plurality of through holes 100 can be configured and dimensioned to align with a plurality of through holes that can be provided in the second panel 24.
As illustrated in
As with the first panel 22, through holes 104 can be provided in the top surface 32a of the second panel bottom member 32 at a position adjacent to and inboard of the first exterior cross member 36. Similarly, through holes (not visible) can be provided in the bottom surface (not visible) of the second panel frame member 50 at a position adjacent to and inboard of the first exterior cross member 36. The pattern and location of the through holes in the second panel frame member 50 can be identical to the pattern and location of the through holes 104 in the second panel bottom member 32.
The number of through holes in each of the frame members 48, 50 and the bottom members 30, 32 can total four and the number of through holes 98, 100 in each splice plates 94 can total eight. However, any number of through holes and fastener assemblies 96 can be used in order to rigidly secure the first panel 22 to the second panel 24 in a cantilevered configuration.
The fastener assemblies 96 can include a threaded fastener (such as a bolt), a lock washer, and a flat washer. The threaded fasteners 96 can be inserted into respective through holes of the panels 22, 24 and the splice plates 94 to secure the splice plates 94 to the first and second panels 22, 24.
As shown in
Similarly, the lower splice plate 94 can be inserted into the hollow passage 108 of the first member bottom member 30 and secured to the inner surface of the top wall (not numbered) and loosely secured with a plurality of fastener assemblies 96.
After the splice pin 82 and the splice plates 94 have been loosely secured to the first panel 22, the second panel 24 can be joined to the first panel 22. First, the second panel 24 can be aligned with the splice pin 82 and the splice plates 94. Next, the second panel 24 can be displaced toward the first panel 22 so that the splice pin 82 enters the cylindrical groove (not visible) in the second panel track member 54 and the splice plates 94 enter the hollow passages (not visible) of the second panel top and bottom members 28, 32. Next, the first and second panels 22, 24 can be adjusted in alignment so that the through holes 100 of the upper splice plate 94 align with the trough holes (not visible) in the second panel frame member 50 while a straight edge spans the panel joint 26. Next, the threaded fasteners of the fastener assemblies 96 can be inserted into the through holes and all of the threaded fasteners can be fully tightened to secure the first and second panels 22, 24 to the upper splice plate 94. These last two steps can be repeated for the lower splice plate 94 and the second panel bottom member 32. Finally, the central fastener 88 can be inserted into a central through bore 110, 112 in each of the exterior cross members 36, 38 and tightened. The central fastener 88 can include a threaded fastener (such as a bolt), a washer and a threaded nut.
The customer can complete the final assembly on-site without the need for highly skilled labor. Thus, reducing overall costs and assembly time.
The panels can be joined by other structure/methods, such as clamps, rivets, differently shaped splice plates, splice tubes, bolts, etc.
After, the first and second panels have been secured together, the modular gate can be hung on the hanger assembly and the alignment of the first and second panels can be fine tuned by tightening respective cables to eliminate any sagging that may occur in the panels.
With reference to
While certain embodiments of the invention are described above, it should be understood that the invention can be embodied and configured in many different ways without departing from the spirit and scope of the invention. For example, the top member can be produced by other known forming methods, for example, hydroforming, casting, folding sheet metal, etc. However, some forming methods may dictate or permit a completely different cross-sectional shape, and therefore it must be determined whether certain forming methods are appropriate for a particular application of the disclosed subject matter. Additionally, the top frame members (and other frame members and gate components) can be produced from other various materials such as aluminum, steel, steel alloys, aluminum alloys, plastics, resin materials, composite plastics, ceramic materials, etc. The extrusion process allows the entire top member to be formed of a single continuous and homogenous material.
With regard to the splice assembly 86, other forms of the splice assembly are contemplated and should fall within the scope of the presently disclosed subject matter. For example, the splice plates could be vertically oriented instead of horizontally oriented as shown. In addition, the plates 94 could be sized and shaped in many different ways, and mate with other and differently shaped portions of the top and bottom members 22, 24, 30, 32.
As indicated above, the frame member 48 can take on many different shapes and need not be a rectangular tube structure as shown in the drawings. For example, the frame member 48 could alternatively be formed as an open I-beam structure in either a horizontal or vertical orientation. The frame member 48 can also be configured to be non-symmetrical in cross-section, polygonal in cross-section, rounded in cross-section, tubular in cross-section, etc. Likewise, the track member 52 can be formed in many different shapes, sizes and orientations with respect to the frame member and fall within the scope of the presently disclosed subject matter. In addition, the trolley could be carried on exterior surfaces of the track member 52 as well as other and differently shaped interior surfaces of the track member 52. It is even contemplated that the track member 52 and frame member 48 be incorporated into a bottom member of the device.
While the subject matter has been described in detail with reference to exemplary embodiments thereof, it will be apparent to one skilled in the art that various changes can be made, and equivalents employed, without departing from the scope of the invention. All related art references discussed in the above Description of the Related Art section are hereby incorporated by reference in their entirety.
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