The present disclosure relates generally to siding panels. The present disclosure relates more particularly to a method of packaging siding panels.
Vinyl siding is commonly used in construction as the exterior cladding for homes and other structures, and has the advantage of low maintenance, easier installation, and high resistance to weathering when compared to wood or composite siding. Vinyl siding is easily applied by home remodelers and do-it-yourselfers. Adjacent panels are overlapped side by side along a surface, creating a number of “lapped” areas once installed. Ideally, the “lap appearance” should not be noticeable, and should remain so over time. However, defects or damage to the siding panels prior to installation can lead to poor lap appearance both initially and over time. For example, due to the undistributed weight and low rigidity of the panels, short or long term creep deformation can occur when the panels are stacked together, which is when areas of the panels sag and, over time, create permanent deformation.
Some vinyl panels are backed with an insulating member to provide additional rigidity to the thin panels as well as provide insulation to the surface to which they are being applied. These panels generally have a thicker overall profile or projection off of the surface to which they are applied in order to provide sufficient insulation, and thus look and function similar to composite siding. Therefore, the insulating member extends beyond the top edge of the siding panel to provide a continuous layer of insulation between panels and minimize gaps. In order to provide the desired wide, flat face look of wood siding in vinyl, these insulated vinyl siding panels can be made with wider profiles without heat distortion issues due to the attached support member. The thicker projection panels generally do not have creep deform issues when stacked horizontally since the support member provides enough additional reinforcement to the wide panels to prevent it.
To further provide vinyl siding with a more updated and sophisticated look as seen in composite siding, and to standardize sizing, another type of vinyl siding panel can include a support member that serves to reinforce the thin panel, but does not extend to or past the top edge of the panel. These panels provide the low-profile, thinner projection look of composite siding and are referred to as reinforced panels, since the main purpose of the support member is for reinforcement rather than insulation.
The shape of the profile of the vinyl siding panels (i.e., non-uniform shape, thin plastic, exposure to wide range of temperatures in storage (job sites), etc.) complicates packaging of the panels in stacks within a box or carton. Since the panels are manufactured in a horizontal orientation, for ease of packaging, the panels are normally horizontally stacked within the box in alternate orientation. A plurality of boxes is then placed on a pallet. However, the horizontally stacked orientation of reinforced siding panels within the box can lead to creep deformation of the panels.
One aspect of the disclosure is a method of packaging a plurality of siding panels comprising:
In certain embodiments, sixteen (16) siding panels are oriented within a box.
Another aspect of the disclosure is a container for packaging siding panels as described herein. The container comprises:
Additional aspects of the disclosure will be evident from the disclosure herein.
The accompanying drawings are included to provide a further understanding of the methods and devices of the disclosure, and are incorporated in and constitute a part of this specification. The drawings are not necessarily to scale, and sizes of various elements may be distorted for clarity. The drawings illustrate one or more embodiment(s) of the disclosure, and together with the description serve to explain the principles and operation of the disclosure.
The present inventor has noted disadvantages of conventional methods of packaging siding panels. Generally, a plurality of vinyl siding panels with an attached support member are stacked horizontally on top of one another within a box or carton for shipping and/or distribution. When placed in the box, the siding panels are stacked on top of one another with a front face of one siding panel abutting a front face of an adjacent siding panel. In this configuration, eight (8) siding panels can fit within the box. In other embodiments with other siding profiles, a different number of panels may fit in a box.
Additionally, a plurality of the boxes are arranged on a pallet or skid for shipping and/or loading onto a truck or other transportation methods. Generally, a pallet holds nine (9) boxes of siding panels which are stacked horizontally within the boxes. Thus, seventy-two (72) siding panels can be held on a pallet. The boxes may be held together on the pallet by one or more straps.
However, as mentioned above, horizontally stacking certain siding panels within the box can cause areas of the panels to sag due to the uneven weight distribution. The present inventor has noted that placing the siding panels vertically within the box can lead to increased quality of the siding panels before and after installation, as well as better overlap appearance during initial installation, as well as after being exposed to extreme temperature conditions.
Accordingly, one aspect of the disclosure is a method for packaging a plurality of siding panels vertically within a shipping box. The method may provide placing a first siding panel vertically within a box, and placing a second siding panel vertically within the box next to the first siding panel. In certain embodiments as otherwise disclosed herein, sixteen (16) siding panels are positioned within one box.
One embodiment of such a method is described with respect to
The siding panel 100 further includes a top edge 106 and a bottom edge 108 opposite the top edge. As shown in
Referring again to
In certain embodiments as otherwise described herein, the support member 114 is secured to the rear face 104 of the siding panel 100 with an adhesive. It should be understood that any suitable fastening mechanism may be used to secure the support member to the rear face 104. For example, in some embodiments, the support member 114 is fused to, poured onto, co-extruded, laminated, welded, mechanically joined, or injection molded onto the rear face 104 of the siding panel 100.
The siding panels 100 are oriented within the box 200 so that the top and bottom edges 106, 108 of the siding panels abut or are adjacent to the top and bottom sides 206, 208 of the box 200. Additionally, the siding panels 100 are placed within the box 200 so that the support member 114 of a panel abuts or is adjacent to each of the first side 202 and the second side 204 of the box 200. Between the outermost siding panels, the siding panels are arranged such that a front face 102 of one siding panel is positioned adjacent a front face 102 of a second siding panel, as shown in
As noted above, the vertical orientation of the packaging allows for sixteen (16) siding panels 100 to fit within a box 200, which is double the amount of siding panels in a box than when placed in a horizontal orientation. In other embodiments with other siding profiles, a different number of panels may fit in a box. Thus, the packaging method of the present application enables more panels can fit within a single box, which allows more panels to fit on a pallet, and therefore more panels to fit on a vehicle for transport, leading to a more efficient packaging and transport system for the siding panels. In this way, the shipped boxes will also take up less space in a buyer's warehouse, allowing the purchase of more product at once, and also enabling the storage more product in the same amount of space (have more on hand for customers).
Additionally, spacers 400, such as foam spacers may be placed between the boxes 200 and the edges of the pallet 300 to stabilize the boxes and assist in evening out the load on pallet. In some embodiments, 3 spacers may be placed on the pallet 300. In certain embodiments as otherwise disclosed herein, more or less spacers may be used.
As shown in
Notably, testing has shown that the vertically packaged siding panels will not creep deform, and therefore have a better initial lap appearance, as well as a better lap appearance over time and when exposed to extreme temperatures than the same siding panels when packaged horizontally.
In various embodiments as otherwise described herein, the support member 114 may be made of any conventional material that can provide rigidity to the siding panel 100. For example, the support member 114 may be made of foam, fiber, mesh, acrylic, polymer, polymer composite, metal, wood, rubber, mineral-filled material, composite material, or combinations thereof. In some embodiments, the support member 114 can be made of any material not susceptible to moisture absorption. In certain embodiments, the support member 114 may be made of any material having a coefficient of linear expansion similar to the coefficient of linear expansion of vinyl, or of whatever material the siding panel itself is made.
It should be understood that the siding panels disclosed herein can be made by any known method, such as a known extrusion process, with a common panel size of 8 inches wide by 12 feet long, although other lengths and widths can be used as appropriate.
As the person of ordinary skill in the art will appreciate, the siding panels disclosed herein may be made of conventional materials. For example, the siding panels may be constructed of vinyl, PVC, polymer, polypropylene, acrylic, Acrylonitrile Styrene Acrylate (ASA), fiberglass, aluminum, steel, any other plastic, or metal, or combinations thereof, or any other material that requires the siding panels to overlap during installation. Conventional methodologies for siding construction can be used in the siding panels as described herein.
It will be apparent to those skilled in the art that various modifications and variations can be made to the processes and devices described here without departing from the scope of the disclosure. Thus, it is intended that the present disclosure cover such modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.
This application is a divisional of U.S. patent application Ser. No. 16/367,111, which claims the benefit of priority of U.S. Provisional Patent Application No. 62/651,098, each of which is hereby incorporated herein by reference in its entirety.
Number | Date | Country | |
---|---|---|---|
62651098 | Mar 2018 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 16367111 | Mar 2019 | US |
Child | 17526643 | US |