1. Field of the Invention
Embodiments of the present invention generally relate to decking. Some embodiments may be used in shelving systems. The disclosed systems also relate to decking for stairs and other types of structures and structural systems.
2. Description of the Related Art
Heavy-duty shelving systems are often made of steel frames with separate decking for the shelves. The decking is often made of slats of wood or a wielded wire grid. These racks can be used for hand-stacking applications and for pallet supports. These types of heavy-duty shelving systems are frequently used in factories, warehouse type stores, home improvement type stores, storage facilities, distribution centers, etc.
As these systems are frequently used in a public and/or permanent setting, they can be subject to certain regulations under state and local building codes. These regulations can include fire safety mandates that require certain fire ratings, as well as the requirement that a certain percentage of water pass through the shelving units (i.e., from overhead sprinkler systems) to reach the ground.
The currently available systems are often overly heavy, thereby reducing the capacity of the shelving unit. This is because of the weight of the decking takes away from the maximum load the system can handle. Thus, the heavier the decking, the less storage capacity in terms of weight the system can hold. In addition, heavy decking systems are difficult for individuals to install and/or manipulate. More than one person is often required to adjust shelves that can weigh half their body weight and more. Other problems experienced by the current systems include increased costs associated with wielding each joint of the wire grid, the large gaps that can form between wooden slats creating a safety issue, as well as the inability to meet certain state and local building codes.
For the reasons discussed above, there exists a need for improved decking and shelving systems that, for example, meet and/or exceed current building codes, reduce the cost of manufacture, and reduce the weight of the shelving system while increasing load capacity.
A decking member configured for use with a shelving unit according to certain embodiments can comprise a plurality of panels, each panel comprising a plurality of slots; first and second side supports being on opposite sides of each of the plurality of panels, each connected to and extending along the length of one side of separate panels among the plurality of panels, the side supports extending in a direction generally transverse to the panels; and at least one side support from each of the plurality of panels connected to another side support from an adjacent panel. Each of the plurality of panels and its first and second side supports can be roll-formed of a single piece of material.
In certain embodiments, the at least one side support from each of the plurality of panels connected to another side support from an adjacent panel is welded together. In some embodiments, the connection between the side supports is open such that water can pass into the connection from the upper surface of the panels. Of some of these embodiments, the connections and the slots make up an open deck of at least 50%.
Some embodiments of a decking member have slots formed by punching a hole and then drawing the hole to form the slot. At least a portion of the material circumscribing the hole used to form the slot is bent to extend generally in the direction of the side supports. This can increase the strength of the decking member.
A shelving system according to certain embodiments can comprise a frame and at least one decking member.
A method of making a decking member can comprise first cutting a first piece of material to a desired shape, wherein the first piece of material is flat. Then, punching out a plurality of slits along a length of the first piece of material, wherein the length is substantially in the center of the first piece of material. Next, roll-forming the first piece of material to create side supports substantially in an L-shape such that the first piece of material is no longer flat. Then, drawing the plurality of slits to create a plurality of slots larger than the slits, wherein at least a portion of the excess material circumscribing the slits is forced downward from a top of the first piece of material. Additional steps can include cutting, punching, roll-forming and drawing a second piece of material in substantially the same manner as the first piece of material and connecting a side support of the first piece of material to a side support of the second piece of material.
In certain methods the step of connecting a side support of the first piece of material to a side support of the second piece of material comprises welding the side supports together.
Some methods can further comprise cutting, punching, roll-forming and drawing a third and fourth piece of material in substantially the same manner as the first piece of material and connecting one side support of the third piece of material to a side support of the second piece of material and the other side support of the third piece of material to a side support of the fourth piece of material.
A decking member of some embodiments can comprise a plurality of panels, first and second side supports, and at least one center support. One or more of the panels can comprise a plurality of slots. The slots can allow the decking to have a minimum of 50% open deck. The first and second side supports can be on opposite ends of the decking member, each can be connected to and extending along the length of one side of separate panels among the plurality of panels. In addition, the side supports can be generally perpendicular to the panels and can form the shape of an L or C and may include a V-notch along the top. The at least one center support can be between the panels and can connect the panels. The at least one center support can have a region perpendicular to the panels and a triangular base. According to some embodiments, the decking member can be roll-formed of a single piece of material and the relationship of the plurality of panels, first and second side supports, and at least one center support can be established by a series of folds in the single piece of material.
A shelving system according to some embodiments can comprise a frame and at least one decking member. The decking member can comprise a plurality of panels, first and second side supports, and at least one center support. Each panel can comprise a plurality of slots. The first and second side supports can be on opposite ends of the decking member, each can be connected to and extending along the length of one side of separate panels among the plurality of panels. In addition, the side supports can be generally perpendicular to the panels and can be formed in the shape of an L or C and may include an indentation along the top. The at least one center support can be between and connecting the panels. The at least one center support can have a region perpendicular to the panels and can have a triangular base. According to some embodiments, the decking member can be rollformed of a single piece of material.
A decking member of certain embodiments can further comprise a plurality of hooks. The plurality of hooks can be part of the single piece of material or can be welded or otherwise joined to the member. The plurality of hooks according to some embodiments can be attached to the center support at a bottom of the triangular base.
These and other objects of embodiments of the present invention will become readily apparent upon further review of the attached drawings and specification.
The features and advantages of embodiments of the invention, and the manner of attaining them, will become apparent by reference to the following description of preferred embodiments of the invention taken in conjunction with the accompanying drawings.
The embodiments shown in
The decking 2 according to one embodiment can be of one piece steel construction that is roll-formed. Roll-forming can include a continuous bending operation in which a long strip of metal (typically coiled steel) is passed through consecutive sets of rolls, or stands, each performing only an incremental part of the bend, until the desired crosssection profile is obtained. In the preferred embodiment, the steel used can be 20 gauge steel.
The individual supports will now be described.
The side support 8 shown in
Turning now to
The center support 6 shown has 6 folds or bends, with 3 per side. Once again, the following will only describe the left side. A first fold 40 is at the top of the I-beam. A second fold 42 is at the bottom of the substantially vertical segment 34 of the I-beam and at the top of triangle side 36. Finally there is a third fold 44 where the side 36 and the bottom 38 of the triangle meet. As with the side support 8, the center support 6 can have more or less folds or bends and still be within the scope of this disclosure.
Returning now to
In some embodiments, slots 14 can be press cut from the panel 4 with the excess material removed and discarded or otherwise utilized. As shown in
By bending the sides of the slit 58 downward, or downward and outward, a substantially planar surface can be formed on the top of the panel 4. This can allow for the decking member 2 to have increased strength and yet still function well as part of a shelving unit, for example, where boxes or containers, etc. can easily be placed and moved around on the decking member 2.
In some embodiments, traction on the top surface of the decking member 2 can be increased by moving or bending the sides of the slits upward or upward and outward such that the edges of the slots project above the top surface of the panel 4. In some embodiments, it may be advantageous to form the slots 14 by removing some material and bending the remaining material to control how far the exposed edges project from the surface of the decking member 2, whether upward or downward.
The slots 14 formed on the decking member 2 can increase the strength of the decking member 2. For example, manufacturing the slot 14 as a drawn-hole from a slit 58, as explained above, can increase the strength of the decking member 2 verses a decking member 2 without slots 14 or with slots 14 that are solely punched out of the material.
The slits 58 of the various embodiments can be of different shapes. For example, rectangular, rectangular with two opposing rounded ends, elliptical, circular, etc. In some embodiments, as shown in
In some embodiments, the slits 58 can be formed in the shape of a dumbbell with 7/16 inch holes at the ends and 5/32 inch channels running between them. In some embodiments the slits 58 can be 4 23/32 inch from center to center of the holes. The slots 14 that are formed can be 17/32 inch channels running along the length of the slot 14. In some embodiments the length is 5½ inches where the panel is 6⅛ inches. In some embodiments there can be 13/16 inch from center to center of adjacent slots 14.
Turning now to
The decking member 2′ can have an at least a 50% open deck. In some embodiments the slots 14′ form at least a 50% open deck. In some embodiments, the sides of the decking units 60 that are connected together along the side supports 8′ can be open to water flow. In these embodiments, these joints together with the slots 14′ can form at least a 50% open deck.
Referring to
Embodiments of the disclosed invention have many benefits. The decking can be manufactured in varying widths and depths accommodating all bay sizes. In some embodiments, the decking member has an outer width dimension extending between the side supports on the ends in the range of approximately 20 to approximately 48 inches. In some embodiments, the outer width dimension is in the range of approximately 24 to 27 inches. In some embodiments, outer width is one of 24, 36, 42 or 48 inches. In some embodiments, the panels can be one of approximately 4, 5, 6 and 7 inches. In some embodiments, the decking has an outer length dimension in the range of approximately 15 to approximately 50 inches. In some embodiments, the outer length is one of approximately 20.5, 32.5, 38.5 and 44.5 inches. In some embodiments, the ratio of the width to the length of the decking member is approximately 1 to 1. In some embodiments, the ratio is approximately 1 to 2. In some embodiments, the height of the decking member can be one of approximately 1, 1.5, 1 9/16 and 2 inches. The embodiments shown in the figures have nesting capabilities which can decrease air space during shipments. The decking can have a durable powder coat finish process, which is generally preferred over other types of finish.
The front to back triangular shaped channels can create a flat surface and add strength. Also the embodiments with multiple decking units connected to form the decking member can also have a flat surface and add strength. The different embodiments can be manufactured to create a lightweight deck allowing one-person installation.
In addition, the disclosed embodiments can have a high weight capacity and, in particular, a high weight capacity versus their own weight. For example, applicants have found that a 20 gauge, 24½″×44½″ deck design according to some embodiments has a 3500 lb. capacity, with a 2 to 1 safety factor that can meet certain Rack Manufacturers Institute (RMI) guidelines.
While the described in terms of specific embodiments, it is implicit that the invention is not limited to these disclosed examples. The invention may be embodied in many different varieties and should not be construed as limited to the embodiments set forth herein; rather these embodiments are provided by illustration purposes only. Undeniably, many modifications and other embodiments of the invention will come to mind of those skilled in the art to which the invention pertains, and which are intended to be and are covered by this disclosure, the drawings, and the claims.
This Application is a continuation of U.S. Non-Provisional application Ser. No. 12/496,269 filed on Jul. 1, 2009 which claims priority under 35 U.S.C. 119(e) to U.S. Provisional Application No. 61/1,077,435 filed on Jul. 1, 2008 titled DECKING MEMBER. The entire disclosure of the above referenced provisional application is hereby incorporated by reference herein and made a part of this specification.
Number | Date | Country | |
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Parent | 12496269 | Jul 2009 | US |
Child | 13586124 | US |