A shelter has a packaged configuration and a deployed configuration. The shelter has four panels, each with four edges and two faces. The first and fourth panels have a rectangular shape, and the second and third panels have a quadrangle shape. The relationship of panel edge lengths and angles of th
A shelter has a packaged configuration and a deployed configuration. The shelter has four panels, each with four edges and two faces. The first and fourth panels have a rectangular shape, and the second and third panels have a quadrangle shape. The relationship of panel edge lengths and angles of the quadrangle shelter panels create a sturdy enclosure that is easy to erect, manipulate, and reconfigure. Furthermore, the shelter may be erected by rotating the panels into place via pivotal connections between the panels and optionally through the use of a lever arm.
대표청구항▼
1. A method of deploying a shelter from a packaged configuration to a deployed configuration, the method comprising: providing a shelter having a packaged configuration and a deployed configuration, the shelter comprising: a back wall having a first face surface, a second face surface, a bottom port
1. A method of deploying a shelter from a packaged configuration to a deployed configuration, the method comprising: providing a shelter having a packaged configuration and a deployed configuration, the shelter comprising: a back wall having a first face surface, a second face surface, a bottom portion and a top portion;a roof panel pivotally coupled to the top portion of the back wall, the roof panel being pivotal to lie substantially parallel with the first face surface of the back wall when in the packaged configuration;a first wing wall pivotally coupled to a first side of the back wall, the first wing wall having a generally quadrangle shape and the first wing wall being pivotal to lie substantially parallel with the second face surface of the back wall when in the packaged configuration; anda second wing wall pivotally coupled to a second side of the back wall opposite the first wing wall and having a generally quadrangle shape, the second wing wall being pivotal to lie substantially parallel with the second face surface of the back wall when in the packaged configuration;operably connecting a lever arm to extend upwardly from the back wall in a generally perpendicular position relative to the shelter in the packaged configuration;rotating the shelter about a bottom portion of the back wall by providing a force to the lever arm to cause the lever arm to impart a rotation to the shelter to rotate the shelter from a generally horizontal orientation into an upstanding orientation;rotating the first wing wall to extend from the back wall;rotating the second wing wall to extend from the back wall;rotating the roof panel to be supported by the first and second wing wall such that the roof panel is supported directly by the first and second wing wall. 2. A method as recited in claim 1, further comprising operably connecting the shelter together with a second shelter to form a shelter compound. 3. A method as recited in claim 2, wherein the second shelter comprises a back wall, a first wing wall, a second wing wall, and a roof panel, the method further comprising operably connecting the shelter and the second shelter by at least one of their respective back walls, wing walls, or roof panels. 4. A method as recited in claim 1, wherein the lever arm is operably connected to the bottom portion of the back wall. 5. A method as recited in claim 1, wherein the lever arm is operably connected to the bottom portion of the first face surface of the back wall. 6. A method of deploying a shelter comprising a back wall, a roof panel pivotally coupled to the top portion of the back wall, a first quadrangle shaped wing wall pivotally coupled to a first side of the back wall, and a second quadrangle shaped wing wall pivotally coupled to a second side of the back wall, from a packaged configuration to a deployed configuration, where the roof panel, the back wall, and the first and second wing walls are substantially parallel in the packaged configuration, the method comprising: operably connecting a lever arm to extend upwardly from the back wall in a generally perpendicular position relative to a bottom portion of the shelter;rotating the shelter about a bottom portion of the back wall by providing a force to the lever arm to cause the lever arm to impart a rotation to the back wall and the attached first and second wing walls and the roof panel to rotate the back wall from a generally horizontal orientation into an upstanding orientation;rotating the first wing wall to extend from the back wall;rotating the second wing wall to extend from the back wall;rotating the roof panel to be supported by the first and second wing wall such that the roof panel is supported directly by the first and second wing wall. 7. A method as recited in claim 6, further comprising operably connecting the shelter together with a second shelter to form a shelter compound. 8. A method as recited in claim 7, wherein the second shelter comprises a back wall, a first wing wall, a second wing wall, and a roof panel, the method further comprising operably connecting the shelter and the second shelter by at least one of their respective back walls, wing walls, or roof panels. 9. A method as recited in claim 6, wherein the lever arm is operably connected to the bottom portion of the back wall. 10. A method as recited in claim 6, wherein the lever arm is operably connected to the bottom portion of the first face surface of the back wall.
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이 특허에 인용된 특허 (5)
Jantzen Michael E. (Clinton County IL), Building structure.
Somers Rex E. (816 W. Washington Blvd. Fort Wayne IN 46804) Beasey Ray A. (R.R. #6 Huntington IN 46750) Woods Richard E. (P.O. Box 393 Markle IN 46770), Collapsible dwelling for children or animals.
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