Solar mounting attachments are becoming increasingly simplified, consisting of just a few parts. However, current systems for packaging this equipment is complex, inefficient, wasteful, and fail to consider how the parts will be used.
In order to describe the manner in which the above-recited and other advantages and features of the disclosure can be obtained, a more particular description of the principles briefly described above will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings. Understanding that these drawings depict only exemplary embodiments of the disclosure and are not therefore to be considered to be limiting of its scope, the principles herein are described and explained with additional specificity and detail through the use of the accompanying drawings in which:
Various embodiments of the disclosure are discussed in detail below. While specific implementations are discussed, it should be understood that this is done for illustration purposes only. A person skilled in the relevant art will recognize that other components and configurations may be used without parting from the spirit and scope of the disclosure.
In one embodiment of the present invention, the structural solar mounting attachment may consist of several components, including a flashing, attachment bracket, one or more roof attachment fasteners, and sealing washer. The method to unpack the solar mounting attachment package box mimics the method used to install the solar mounting attachment on the roof. For example, the unpacking may follow a method as follows; first, an exterior packaging box is opened; second, a singular or stack of multiple flashings is removed from the box; third, one or more containers, such as an envelope, bag, or small box containing fasteners may be removed from the box; fourth, multiple attachment brackets may be removed from the box.
The method begins at step 202, in which the package box 100 is first formed as having the first end 102, the second end 104, and the sidewall 106.
At step 204, the first end 102 of the package box 100 is sealed, so that the components may be placed into the package box 100.
At step 206, the attachment brackets 130 are placed into compartments 150 defined by dividers 140. More specifically, the dividers 140 are disposed adjacent to the first end 102 of the package box 100. Thus, the compartments 150 defined by the dividers 140 are also adjacent to the first end 102, so that the attachment brackets 130 are placed adjacent to the first end 102 of the package box 100. In some embodiments, the dividers 140 are first placed into the package box 100, such that the dividers 140 are disposed in the package box 100 and adjacent to the first end 102.
At step 208, the container 120 of fasteners are placed onto at least one of the attachment brackets 130. The container 120 of fasteners may also be placed onto at least one of the dividers 140. Furthermore, the container 120 of fasteners may be disposed adjacent to at least one portion of the sidewall 106 of the package box 100.
At step 210, the flashings 110 are placed onto at least one of the other attachment brackets 130. Thus, the flashings 110 are placed adjacent to the container 120 of fasteners and at least one other portion of the sidewall 106 of the package box 100.
At step 212, the second end 104 of the package box 100 is sealed, so that the package box 100 may contain and secure all of the components therein.
The result is the package box 100 depicted in
Therefore, the flashings 110, the container 120 of fasteners, and the attachment brackets 130 may be removed from the package box 100 from the second end 104 in the order of flashings 110, the container 120 of fasteners, and the attachment brackets 130. Since the flashings 110 and the container 120 of fasteners are adjacent to each other and the second end 104, the flashings 110 and the container 120 of fasteners may be removed from the package box in reverse order and/or simultaneously. Thus, the flashings 110, the container 120 of fasteners, and the attachment brackets 130 may also be removed from the package box 100 from the second end 104 in the order of the container 120 of fasteners, flashings 110, and attachment brackets 130.
It is further contemplated that the package box 100 may be packaged or filled in a reverse order. In other words, the package box 100 may be packaged or filled in the order of flashings 110 in the first end 102, the container 120 of fasteners adjacent to the flashings 110 and the first end 102, and the attachment brackets 130 into compartments defined by dividers 140 adjacent to the second end 104. Thus, a user may remove the flashings 110, the container 120 of fasteners, and the attachment brackets 130 from the first end 102 in the order of flashings 110, the container 120 of fasteners, and the attachment brackets 130.
Thus, the method 200 allows for installation of the components of the solar mounting attachments in the same order of removal from the package box 100. In other words, the components of the solar mounting attachments, or the flashings 110, the container 120 of fasteners, and the attachment brackets 130 are then installed in the order of the flashings 110, the container 120 of fasteners, and the attachment brackets 130.
The method 400 begins at step 402, in which the first end 102 of the package box 100 is opened.
At step 404, the flashings 110 are removed from the first end 102 of the package box 100.
At step 406, the container 120 of fasteners, which were previously adjacent to the flashings 110, is removed from the first end 102 of the package box 100.
At step 408, the attachment brackets 130 are removed from the compartments 150 defined by the dividers 140. The attachment brackets 130 and compartments 150 were previously adjacent to the flashings 110 and the container 120 of fasteners.
Thus, the flashings 110, the container 120 of fasteners, and the attachment brackets 130 are removed from the box in that order. The flashings 110, the container 120 of fasteners, and the attachment brackets 130 may then be used for installation in the order of at least one of the flashings 110, at least one of the fasteners in the container 120 of fasteners, and at least one of the attachment brackets 130.
The method 600 begins at step 602, in which the first end 102 of the package box 100 is opened.
At step 604, the attachment brackets 130 are removed from the compartments 150 defined by the dividers 140. The attachment brackets 130 and compartments 150 are adjacent to the flashings 110 and the container 120 of fasteners.
At step 606, the flashings 110 adjacent to the container of fasteners are removed from the first end 102 of the package box 100.
At step 608, the container 120 of fasteners disposed on the second end 104 of the package box 100 is removed from the first end 102 of the package box 100.
Thus, the attachment brackets 130, the container 120 of fasteners, and the flashings 110 are removed from the package box 100 in that order. The flashings 110, the container 120 of fasteners, and the attachment brackets 130 may then be used for installation in the order of at least one of the flashings 110, at least one of the fasteners in the container 120 of fasteners, and at least one of the attachment brackets 130.
The various embodiments described above are provided by way of illustration only and should not be construed to limit the scope of the disclosure. Those skilled in the art will readily recognize various modifications and changes that may be made to the principles described herein without following the example embodiments and applications illustrated and described herein, and without departing from the spirit and scope of the disclosure.
This application claims the benefit of U.S. Provisional Patent Application No. 62/811,069, entitled “METHOD OF PACKAGING FOR SOLAR MOUNTING ATTACHMENTS,” filed on Feb. 27, 2019, the contents of which are incorporated herein by reference in its entirety.
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Number | Date | Country | |
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20200270010 A1 | Aug 2020 | US |
Number | Date | Country | |
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62811069 | Feb 2019 | US |