IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0178113
(2011-07-07)
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등록번호 |
US-8282065
(2012-10-09)
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발명자
/ 주소 |
|
출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
26 인용 특허 :
9 |
초록
▼
A compact, collapsible, self-erecting stand and a method of making the stand are disclosed. The stand is constructed for placement upon a supporting substrate to prop a hand-held electronic device to be placed on the supporting substrate and includes an elongate strip of material having resiliently
A compact, collapsible, self-erecting stand and a method of making the stand are disclosed. The stand is constructed for placement upon a supporting substrate to prop a hand-held electronic device to be placed on the supporting substrate and includes an elongate strip of material having resiliently flexible characteristics biasing the strip toward a substantially flat configuration. A plurality of substantially rigid plates are affixed to the strip and located along the strip to establish a corresponding plurality of panels. A hinge section of the strip is interposed between adjacent panels, each hinge section being unitary with the strip and biasing corresponding adjacent panels toward the substantially flat configuration of the strip such that the panels are movable selectively into a collapsed configuration, wherein the panels are folded about the hinge sections into overlapping juxtaposition for compact carrying, and are released selectively to be moved into an erect configuration in response to biasing forces at the hinge sections to elevate certain ones of the panels relative to a basal one of the panels for providing a prop for an electronic device to be placed on the supporting substrate.
대표청구항
▼
1. A compact, collapsible, self-erecting stand for placement upon a supporting substrate to prop a hand-held electronic device to be placed on the supporting substrate, the stand comprising: an elongate strip of material having resiliently flexible characteristics biasing the strip toward a substant
1. A compact, collapsible, self-erecting stand for placement upon a supporting substrate to prop a hand-held electronic device to be placed on the supporting substrate, the stand comprising: an elongate strip of material having resiliently flexible characteristics biasing the strip toward a substantially flat configuration extending in a longitudinal direction between first and second terminal ends, in a lateral direction between first and second sides, and in an altitudinal direction between an obverse surface and a reverse surface;a plurality of substantially rigid plates affixed to the strip and located along the strip to establish a corresponding plurality of panels, each panel comprising a plate affixed to a corresponding surface portion of the strip; anda hinge section of the strip interposed between adjacent panels, each hinge section being unitary with the strip and biasing corresponding adjacent panels toward the substantially flat configuration of the strip such that the panels are movable selectively into a collapsed configuration, wherein the panels are folded about the hinge sections into overlapping juxtaposition for compact carrying, and are released selectively to be moved into an erect configuration in response to biasing forces at the hinge sections to raise certain ones of the panels in the altitudinal direction, relative to a basal one of the panels for establishing raised panels providing a prop for an electronic device to be placed on the supporting substrate. 2. The stand of claim 1 wherein at least the reverse surface of the strip has high frictional surface characteristics, and the plate of the basal one of the panels is affixed to the obverse surface of the strip such that the reverse surface is exposed along the basal one of the panels for frictionally engaging the supporting substrate. 3. The stand of claim 1 wherein at least the reverse surface of the strip has high frictional surface characteristics, and at least the plate that establishes one of the raised panels is affixed to the obverse surface of the strip such that the reverse surface is exposed along the one of the raised panels for frictionally engaging an electronic device to be propped against the one of the raised panels. 4. The stand of claim 1 including a further basal panel extending in the longitudinal direction, away from the raised panels when the panels are in the erect configuration, for supporting an electronic device to be propped against the raised panels. 5. The stand of claim 4 including at least one stop shoulder on the further basal panel, spaced from the raised panels, for engaging an electronic device to be propped against the raised panels. 6. The stand of claim 1 wherein the material of the strip is an elastomer. 7. The stand of claim 1 wherein the plurality of panels are arranged serially along the strip and include: a first panel extending in the longitudinal direction between the first terminal end and a first hinge section;a second panel extending in the longitudinal direction between the first hinge section and a second hinge section;a third panel extending in the longitudinal direction between the second hinge section and a third hinge section; anda fourth panel extending in the longitudinal direction between the third hinge section and an attachment location on the strip; and whereinthe strip, along a portion of the strip adjacent the first terminal end of the strip, is affixed to the obverse surface of the strip adjacent the attachment location, and the attachment location is placed on the strip such that the third and fourth panels are biased by the third hinge section into a basal leg of a triangular configuration in which the first and second panels are biased by the first and second hinge sections into apical legs of the triangular configuration, raised from the basal leg to an apex for engaging the electronic device to be propped against the raised first and second panels; andthe third and fourth panels are foldable selectively about the third hinge section, against the bias of the third hinge section, to collapse the first and second panels toward one another, against the bias of the first and second hinge sections, to establish the collapsed configuration of the panels. 8. The stand of claim 7 including a fourth hinge section in the strip at the attachment location, and wherein the plurality of panels include a fifth panel extending in the longitudinal direction between the fourth hinge section and the second terminal end of the strip, the fifth panel being biased by the fourth hinge section to extend beyond the basal leg of the triangular configuration and establish a platform for the electronic device to be propped against the raised first and second panels, the fifth panel being foldable selectively about the fourth hinge section, against a bias of the fourth hinge section, to collapse the fifth panel against the collapsed first and second panels. 9. The stand of claim 8 including at least one stop shoulder on the fifth panel, spaced from the fourth hinge section in the longitudinal direction for being engaged by an electronic device to be propped against the raised first and second panels. 10. The stand of claim 9 wherein the material of the strip is an elastomer. 11. A method for constructing a compact, collapsible, self-erecting stand for placement upon a supporting substrate to prop a hand-held electronic device to be placed on the supporting substrate, the method comprising: providing an elongate strip of material having resiliently flexible characteristics biasing the strip toward a substantially flat configuration extending in a longitudinal direction between first and second terminal ends, in a lateral direction between first and second sides, and in an altitudinal direction between an obverse surface and a reverse surface;affixing a plurality of substantially rigid plates to the strip, located along the strip to establish a corresponding plurality of panels, each panel comprising a plate affixed to a corresponding surface portion of the strip; andproviding a hinge section of the strip interposed between adjacent panels, each hinge section biasing corresponding adjacent panels toward the substantially flat configuration of the strip such that the panels are movable selectively into a collapsed configuration, wherein the panels are folded about the hinge sections into overlapping juxtaposition for compact carrying, and are released selectively to be moved into an erect configuration in response to biasing forces at the hinged sections to raise certain ones of the panels in the altitudinal direction, relative to a basal one of the panels for establishing a prop for an electronic device to be placed on the supporting substrate. 12. The method of claim 11 including: providing at least the reverse surface of the strip with high frictional surface characteristics; andaffixing the plate of the basal one of the panels to the obverse surface of the strip such that the reverse surface is exposed along the basal one of the panels for frictionally engaging the supporting substrate. 13. The method of claim 11 including: providing at least the reverse surface of the strip with high frictional surface characteristics; andaffixing the plate of one of the raised panels to the obverse surface of the strip such that the reverse surface is exposed along the one of the raised panels for frictionally engaging an electronic device to be propped against the one of the raised panels. 14. The method of claim 11 including providing a further basal panel extending in the longitudinal direction, away from the raised certain ones of the panels when the panels are in the erect configuration, for supporting an electronic device to be propped against the raised panels. 15. The method of claim 11 including: arranging the plurality of panels serially along the strip such that:a first panel is extended in the longitudinal direction between the first terminal end and a first hinge section;a second panel is extended in the longitudinal direction between the first hinge section and a second hinge section;a third panel is extended in the longitudinal direction between the second hinge section and a third hinge section; anda fourth panel is extended in the longitudinal direction between the third hinge section and an attachment location on the strip; andaffixing the strip, along a portion of the strip adjacent the first terminal end of the strip, to the obverse surface of the strip adjacent the attachment location, andplacing the attachment location on the strip such that the third and fourth panels are biased by the third hinge section into a basal leg of a triangular configuration in which the first and second panels are biased by the first and second hinge sections into apical legs of the triangular configuration, raised from the basal leg to an apex for engaging the electronic device to be propped against the raised first and second panels, and the third and fourth panels are foldable selectively about the third hinge section, against the bias of the third hinge section, to collapse the first and second panels toward one another, against the bias of the first and second hinge sections, to establish the collapsed configuration of the panels. 16. The method of claim 15 including providing a fourth hinge section in the strip at the attachment location, and a fifth panel extending in the longitudinal direction between the fourth hinge section and the second terminal end of the strip, the fifth panel being biased by the fourth hinge section to extend beyond the basal leg of the triangular configuration and establish a platform for the electronic device to be propped against the raised first and second panels, the fifth panel being foldable selectively about the fourth hinge section, against a bias of the fourth hinge section, to collapse the fifth panel against the collapsed first and second panels. 17. The method of claim 16 including providing at least one stop shoulder on the fifth panel, spaced from the fourth hinge section in the longitudinal direction for being engaged by an electronic device to be propped against the raised first and second panels. 18. The method of claim 11 wherein the elongate strip of material is provided in the form of an elongate strip of elastomer.
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