Patent Grant
11572691
This invention relates generally to a wall system, and more particularly, but not by way of limitation, to a lightweight, interlocking, freestanding, reconfigurable, all-weather wall system for use in law enforcement, emergency services, and military training.
Training is essential for law enforcement, emergency services, and military personnel. It is a common practice to conduct tactical training in the type of environment that such personnel may encounter in the field. This includes training in buildings. Some organizations have permanent structures dedicated to such training. The problem with permanent structures is that their location and configuration are fixed.
There are a number of options for temporary walls that can be erected in a desired location in a desired configuration, then removed or repositioned. The problem with these existing wall systems is that they are difficult and time consuming to assemble and are often heavy and thus difficult to move. Furthermore, many of these existing wall systems have limited options for configuration. Finally, many of the existing wall systems are designed specifically for either indoor or outdoor use, limiting their utility.
There is a particular need among various law enforcement agencies for a wall system that can be quickly assembled to simulate a real-world location to allow a tactical team to practice entering that location prior to actually doing so. Typically, in such a situation, time is of the essence and precision in dimensions of the simulation is vital, increasing the importance of speed and ease of assembly and versatility in configuration of the wall system. The existing wall systems currently on the market are all either too difficult or time consuming to assemble or do not offer sufficient flexibility of configuration to meet the needs of law enforcement.
Based on the foregoing, it is desirable to provide a modular wall system that is lightweight, easy to assemble, and appropriate for both indoor and outdoor use.
It is further desirable for the modular wall system to be easily reconfigurable.
It is further desirable for the modular wall system to be able to be assembled without the use of tools.
It is further desirable for the modular wall system to include small-scale components that may be built into a scale model of desired training environment to allow for planning both of the training environment itself prior to assembly and of the actions of personnel both within the training environment after assembly and within the real-world environment represented thereby.
In general, in a first aspect, the invention relates to a modular wall system comprising a plurality of wall panels and a plurality of panel interlocking connectors capable of temporarily connecting two or more wall panels. The modular wall system may be capable of being assembled and disassembled without the use of tools.
Each of the wall panels may comprise a top channel, a bottom channel, and a plurality of wall pins, where each of the wall pins spans either the top channel or the bottom channel and each of the wall pins in the top channel are equally spaced apart and each of the wall pins in the bottom channel are equally spaced apart. Each of the panel interlocking connectors may comprise a plate and one or more saddle assemblies, where each of the saddle assemblies is receivable within either the top channel or the bottom channel, each of the saddle assemblies comprising a pair of slots, where the wall pins are receivable within the slots.
The wall panels and panel interlocking connectors may be compatible with non-lethal training ammunition.
The plurality of wall panels may comprise one or more wall panel with a window therein, one or more wall panel with a door therein, one or more wall panel with no door and no window, or any combination thereof. Each wall panel may comprise a plurality of sheet metal channels and two sheet metal skins. Each wall panel may comprise at least one handle structure.
The modular wall system may further comprise a plurality of pins capable of temporarily securing the panel interlocking connectors to the wall panels.
The plurality of panel interlocking connectors may comprise one or more straight panel interlocking connector, one or more cross-shaped panel interlocking connectors, one or more corner panel interlocking connectors, one or more T-shaped panel interlocking connectors, or any combination thereof. The straight panel interlocking connector may be capable of joining two wall panels side-by-side. The cross-shaped panel interlocking connector may be capable of joining three or four wall panels to form a cross shape. The corner panel interlocking connector may be capable of joining two wall panels to form a corner. The T-shaped panel interlocking connector may be capable of joining two or three wall panels to form a T-shape.
The plurality of wall panels may comprise a plurality of full-size wall panel and a plurality of miniature wall panels and the plurality of panel interlocking connectors may comprise a plurality of full-size panel interlocking connectors and a plurality of miniature panel interlocking connectors, such that the system is capable of being configured into both a full-size walled structure and a model of the full-size walled structure.
Other advantages and features will be apparent from the following description and from the claims.
The devices and methods discussed herein are merely illustrative of specific manners in which to make and use this invention and are not to be interpreted as limiting in scope.
While the devices and methods have been described with a certain degree of particularity, it is to be noted that many modifications may be made in the details of the construction and the arrangement of the devices and components without departing from the spirit and scope of this disclosure. It is understood that the devices and methods are not limited to the embodiments set forth herein for purposes of exemplification.
In general, in a first aspect, the invention relates to a modular wall system. The modular wall system may be particularly suited for use in law enforcement, emergency services, and military training. The modular wall system may be lightweight, easy to assemble, and appropriate for both indoor and outdoor use. The components of the modular wall system may interlock to form a freestanding structure of any desired configuration, which may be easily disassembled and reassembled in a different configuration and/or in a different location. The modular wall system may not require tools for assembly or disassembly.
The modular wall system may comprise a plurality of wall panels 1 and a plurality of panel interlocking connectors 2. The components of the modular wall system may be constructed of lightweight material, such as aluminum, or any other desired material. The components of the modular wall system may be compatible with non-lethal training ammunition.
The wall panels 1 may each be generally rectangular, or any other desired shape. Each wall panel 1 may have at top channel 3 running horizontally along the top of the panel 1 and a bottom channel 4 running horizontally along the bottom of the panel 1. A plurality of wall pins 5 may span the channels 3 and 4, running between the front and back of the panel 1. The wall pins 5 may be evenly spaced along the entire length of the channels 3 and 4. For example, the wall pins 5 may be spaced in four-inch increments, or may be spaced at any other desired interval. In some varieties of the wall panel 1, the top channel 3 and the bottom channel 4 may be identical.
The modular wall system may include multiple varieties of wall panels 1. For example, one variety of wall panel 1 may be a standard wall panel, as shown in
Each wall panel 1 may be constructed of a plurality of sheet metal channels 8 forming a basic structure, which may be sandwiched between and attached to two sheet metal skins 9. Alternately, the channels 8 and/or skins 9 may be made of a different material than sheet metal, as desired.
By way of example, as shown in
Each wall panel 1 may have one or more handle structures 11. Each handle structure 11 may be located between the sheet metal skins 9 and may be accessible through openings 12 in the sheet metal skins 9. Each handle structure 11 may comprise a rectangular housing with a handle component extending horizontally across the housing on each side of the handle structure 11, providing a handle on both the front and the back of the wall panel 1. The standard wall panel 1 may have two handle structures 11, providing four total handles on the wall panel 1, with two handles on each side. This may allow one person to easily maneuver the panel 1. Alternately to the handle structures 11 as shown, the wall panels 1 may have one or more alternate handle structures of any desired shape, configuration, quantity, and location.
In the wall panel 1 with a widow 6, as shown in
In the wall panel 1 with a door 7, as shown in
Two or more wall panels 1 may be temporarily secured to each other via a pair of panel interlocking connectors 2. Each panel interlocking connector 2 may be constructed of sheet metal plates welded together. Alternately, the panel interlocking connectors 2 may be made of any other desired material or materials and/or may be constructed via any other attachment devices or techniques. Each panel interlocking connector 2 may comprise a plate 17 and one or more saddle assemblies 18. The plate 17 may be generally flat. The saddle assemblies 18 may extend perpendicularly from the plate 17 on one side, with the other side flat. To connect two or more wall panels 1, one panel interlocking connector 2 may be used to connect the bottoms of the wall panels 1, with the flat side of the panel interlocking connector 2 resting on the floor, and another panel interlocking connector 2 may be used to connect the tops of the wall panels 1, with the flat side of the panel interlocking connector 2 facing upward.
Each of the saddle assemblies 18 may comprise two parallel side pieces 19 and two parallel end pieces 20, where the end pieces 20 are perpendicular to and interlock with the side pieces 19 to form a rectangular shape. The side pieces 19 may be spaced apart and the end pieces 20 may be correspondingly sized such that the saddle assembly 18 fits within the channels 3 and 4 of the wall panels 1. Each of the side pieces 19 may have a pair of slots 21, which may have the same spacing as the wall pins 5. For example, if the wall pins 5 are spaced at four inch increments, the centers of the slots 21 on each side piece 19 may likewise be spaced four inches apart. The slots 21 may be sized and shaped such that the wall pins 5 are receivable within the slots 21. Thus, each saddle assembly 18 may be inserted into a channel 3 or 4 of a wall panel 1, such that the wall pins 5 are located within the slots 21 and the plate 17 is touching either the top or bottom of the wall panel 1, depending on whether the saddle assembly 18 is inserted into top channel 3 or bottom channel 4 of the wall panel 1.
Each of the side pieces 19 may have a hole 22, which may be centered between the slots 21, as shown, or otherwise located as desired. The sides of channels 3 and 4 and the skins 9 of the wall panel 1 may have corresponding holes 23, such that holes 22 align with holes 23 when the saddle assembly 18 is fully inserted into a channel 3 or 4 with the wall pins 5 seated within the slots 21. A quick release pin 24 or other attachment device may be receivable in the holes 22 and 23. The pin 24 may be of sufficient length to extend from one side of the wall panel 1, through the saddle assembly 18, and out the other side of the wall panel 1. The pins 24 may securely hold the wall panels 1 and panel interlocking connectors 2 together, but may be easily removable for disassembly of the modular wall system.
The plate 17 of the panel interlocking connector 2 may have one or more openings 25, which may function as handles during setup and teardown. The plate 17 may additionally or alternately have one or more holes 28 for use in mounting accessories, such as speakers, cameras, fans, etc. These holes 28 may also be used for anchoring the modular wall system to the ground or other surface, including but not limited to concrete, asphalt, dirt, etc. This may allow the modular wall system to be used as semi-permanent wall structure.
Each of the pieces of the saddle assembly 18 may have one or more tabs 26 which may be receivable in one or more slots 27 in the plate 17. This may aid in construction of the panel interlocking connector 2. The tabs 26 and slots 27 may be seen in the exploded views of the panel interlocking connectors 2.
The panel interlocking connectors 2 may have any desired shape and configuration. In particular, multiple configurations of panel interlocking connectors 2 may be included in the modular wall system, allowing multiple configurations of wall panels 1. For any given variety of panel interlocking connector 2, the shape of the plate 17 may be dependent on the number and configuration of saddle assemblies 18 included thereon.
The modular wall system may include multiple varieties of panel interlocking connectors 2. For example, one variety of panel interlocking connector 2 may be a straight panel interlocking connector 2, as shown in
The straight panel interlocking connector 2 may be used to join two wall panels 1 side by side to form a single, wider wall. The straight panel interlocking connector 2 may have two saddle assemblies 18. The two saddle assemblies 18 may be aligned along their long axes, but spaced apart such that one of the saddle assemblies 18 can receive the first two wall pins 5 of one wall panel 1 and the other saddle assembly 18 can receive the first two wall pins 5 of another wall panel 1, with the wall panels aligned and their sides abutting.
The cross-shaped panel interlocking connector 2 may be used to join four wall panels 1 to form a cross-shape. The cross-shaped panel interlocking connector 2 may have four saddle assemblies 18. Two saddle assemblies 18 may be aligned along their long axes and spaced apart, and the other two saddle assemblies 18 may likewise be aligned along their long axes and spaced apart, but perpendicular from the first two saddle assemblies 18. In other words, the four saddle assemblies 18 may each be equidistant from a central point at 90 degree angles from each other. The saddle assemblies 18 may be spaced such that each can receive the first two wall pins 5 of a wall panel 1, with the sides of the wall panels 1 abutting their adjacent wall panels along their corners, forming a square in the middle thereof. Alternately, four wall pins 5 from a single wall panel 1 may be received in two of the saddle assemblies 18, with the first two wall pins 5 of two additional wall panels 1 received in the other two saddle assemblies 18, with one side of each of the two additional wall panels 1 abutting either the front or the back of the single wall panel 1, sandwiching the wall panel 1 therebetween.
The corner panel interlocking connector 2 may be used to joint two wall panels 1 to form a corner. The corner panel interlocking connector 2 may have two saddle assemblies 18, which may lie perpendicular to each other and spaced apart such that one of the saddle assemblies 18 can receive the first two wall pins 5 of one wall panel 1 and the other saddle assembly 18 can receive the first two wall pins 5 of another wall panel 1, with the wall panels perpendicular to each other and one corner of the side of each abutting. Alternately, one of the saddle assemblies 18 can receive the first two wall pins 5 of one wall panel 1 and the other saddle assembly 18 can receive two wall pins 5 other than the first two wall pins 5 of another wall panel 1, allowing the wall panels to lie perpendicular to each other with the side of the first wall panel 1 abutting either the front or the back of the second wall panel 1.
The T-shaped panel interlocking connector 2 may be used to joint two or three wall panels 1 to form a T-shape. The T-shaped panel interlocking connector 2 may have three saddle assemblies 18, two of which may be aligned along their long axes, but spaced apart such that one of the saddle assemblies 18 can receive the first two wall pins 5 of one wall panel 1 and the other saddle assembly 18 can receive the first two wall pins 5 of another wall panel 1, with the wall panels aligned and their sides abutting. Alternately, both aligned saddle assemblies 18 may receive wall pins 5 of a single wall panel 1. Either way, the third saddle assembly 18 may lie perpendicular to the two aligned saddle assemblies 18 and may be spaced from the two aligned saddle assemblies 18 such that it may receive the first two wall pins 5 of an additional wall panel 1, the side of which may abut the front or back of the one or two wall panels 1 attached to the aligned saddle assemblies 18.
During use, the user may place two panel interlocking connectors 2 on the ground. The user may then vertically insert a wall panel 1 into the panel interlocking connectors 2 located on the ground. The user may insert a pin 24 into each of the aligned holes 22 and 23, securing the wall panel 1 to the panel interlocking connectors 2. The user may place additional panel interlocking connectors 2 on the ground, allowing placement of additional wall panels 1, as desired. The user may secure the additional wall panels and additional panel interlocking connectors 2 with additional pins 24 wherever there are aligned holes 22 and 23. Wherever two wall panels 1 come together, the user may place a panel interlocking connector 2 to the top channels 3 of the wall panels 1 and secure it into place with pins 24 where there are aligned holes 22 and 23, ensuring that the wall panels 1 are connected at both the top and the bottom. The panel interlocking connector 2 at the top of the panels 1 may match the panel interlocking connector 2 at the bottom of the panels 1. These steps may be repeated as many times as required to obtain the desired wall system configuration. All components of the modular wall system may be installed by hand without the use of tools.
The components of the modular wall system may be configured to represent a walled or otherwise confined space. As such, the assembled modular wall system may be used to simulate a variety of environments, such as an apartment, an office building, a house, a jet bridge, or any other walled area. The system may be used in any open space, such as a building, vehicle, container, outdoor area, or other open space.
After use or when a different configuration is desired, the modular wall system may be disassembled by removing the pins 24, removing the panel interlocking connectors 2 from the tops of the wall panels 1, and removing the wall panels 1 from the panel interlocking connectors 2 on the ground. As with assembly, all components of the modular wall system may be disassembled by hand without the use of tools.
The components of the modular wall system may be any desired size. For example, each wall panel 1 may be 84 inches tall, 43.938 inches wide, and 4 inches deep and the pins 5 may be spaced 4 inches apart. Each window 6 may be 30 inches wide and 30 inches tall. Each panel interlocking connector 2 may be 1.688 inches tall. The plate 17 of the straight panel interlocking connector 2 may be 15.250 inches by 9 inches; the plate 17 of the cross-shaped panel interlocking connector 2 may be 19.250 inches square; the plate 17 of the corner panel interlocking connector 2 may be 16.092 inches by 13.172 inches; and the plate 17 of the T-shaped panel interlocking connector may be 19.250 inches by 14.125 inches. Alternately, any or all of the foregoing may be any desired size, dimension, and/or ratio.
The modular wall system may additionally or alternately include miniature versions of the system components. These miniature components may allow the user to mock up a model of an existing walled or confined space and/or the walled or confined space built or planned to be built using the full-size components of the modular wall system. This may allow the user to plan what type and quantities of components are needed to build a desired configuration; to plan a training exercise; or to plan a tactical mission in a real-life space modeled by the miniature components. Each miniature component may be identical to a corresponding full-size component and may be assembled and disassembled the same way.
Whereas, the devices and methods have been described in relation to the drawings and claims, it should be understood that other and further modifications, apart from those shown or suggested herein, may be made within the spirit and scope of this invention.
This application is based on and claims priority to U.S. Provisional Patent Application No. 62/925,841 filed Oct. 25, 2019.
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