| 摘要 |
A compression collar apparatus is disposed upon an article providing an axial manual grasping stop upon the article, the apparatus includes a first arcuate element having first proximal and distal portions, the first distal portion including an engagement segment. Also, a second arcuate element having second proximal and distal portions, the first proximal portion and the second proximal portion have a first pivotal connection that enables open and closed states of the first and second arcuate elements. Further, a flexible retention arch beam having states of; free, de-arched, and intermediate, includes beam proximal and distal portions, the beam proximal portion and the second distal portion have a second pivotal connection, in the intermediate state the beam distal portion having an interlocking section that has a variable removable engagement with the engagement segment, resulting in the closed state of the first and second arcuate elements about the article. |
| 主权项 |
1. A compression collar apparatus for providing compressive force upon an article or for providing an axial manual grasping stop upon the article along an axial longitudinal axis of the article, said compression collar apparatus comprising:
(a) a first arcuate element having a first arcuate axis, said first arcuate element having a first proximal portion and an opposing first distal portion, said first distal portion including an engagement segment that has a plurality of engagement points disposed along said first arcuate axis, wherein said engagement segment is a serrated ratchet toothed segment having an arcuate pitch line that is substantially parallel to said first arcuate axis, wherein said serrated ratchet toothed segment is formed from a plurality of teeth that each have an equal arcuate pitch distance to one another, a minor diameter segment root angle that is greater that a major diameter segment tip angle, resulting in a short distance tooth flank from said minor diameter segment to said major diameter segment and a long distance tooth flank from said minor diameter segment to said major diameter segment for each tooth; (b) a second arcuate element having a second arcuate axis, said second arcuate element having a second proximal portion and an opposing second distal portion, said first proximal portion and said second proximal portion have a first pivotal connection to one another about a first pivotal axis for a first pivotal movement, wherein said first pivotal axis and the longitudinal axis are substantially parallel to one another, wherein said first pivotal movement is positioned in a plane that is substantially perpendicular to said first pivotal axis, an open operational state is defined as said first and second arcuate elements being moved apart from one another about said first pivotal axis to be able to clear the article and a closed operational state is defined as said first and second arcuate elements being moved toward one another about said first pivotal axis to cause a compressive force upon the article, said closed state is initially effectuated by variably manually compressing said first and second arcuate elements toward one another as against the article via said first pivotal movement to cause the compressive force upon the article, wherein said first and second arcuate elements can be in said closed state at a variable distance apart from one another to accommodate different size articles; and (c) a flexible retention arch beam having a free arched state with a free arched axis, a de-arched state with a de-arched state axis, and an intermediate arched state with an intermediate arched state axis, said flexible retention arch beam having a flexible retention arch beam proximal portion and an opposing flexible retention arch beam distal portion, said flexible retention arch beam proximal portion and said second distal portion have a second pivotal connection to one another about a second pivotal axis for a second pivotal movement, wherein said second pivotal axis and said first pivotal axis are substantially parallel to one another, said flexible retention arch beam distal portion having an adjustable interlocking section that has a plurality of interlocking points along said intermediate arched state axis, wherein said adjustable interlocking section is a serrated toothed rack having a pitch line that is substantially linear, said serrated toothed rack pitch line forming a tangential relationship with said arcuate pitch line at said interlock, wherein said serrated toothed rack is formed from a plurality of teeth that each have an equal pitch distance to one another and an equal whole depth as measured from a tooth tip to a tooth root, and an angle as between each tooth flank that progressively increases for each tooth in going from adjacent to said flexible retention arch beam proximal portion to said flexible retention arch beam distal end portion, resulting in each tooth having a short dimension tooth flank from a root pitch line to a tip pitch line and a long dimension tooth flank from said root pitch line to said tip pitch line, wherein each of said short and long dimensions of said tooth flanks both progressively increase for each tooth in going from adjacent to said flexible retention arch beam proximal portion to said flexible retention arch beam distal end portion, as said interlock is defined as a removably engagable contact as between a single short distance tooth flank and a single short dimension tooth flank, said progressively increasing long dimension tooth flanks structurally accommodate an increasing projected length of said long tooth flank distance due to said first pivotal movement of said first and second arcuate elements moving apart from one another to facilitate a larger article, said adjustable interlocking section resulting in a variable removable engagement with said engagement segment forming an interlock as between said flexible retention arch beam and said first arcuate element, wherein said interlock places said first and second arcuate elements in said closed state, wherein said flexible retention arch beam is in said intermediate arched state, when said first and second arcuate elements are in the closed state about the article, thus putting said first and second arcuate elements in place to cause said compressive force via said flexible retention arch beam trying to achieve said free arched state by pulling said second pivotal connection toward said interlock, said de-arched state is effectuated by manually compressibly grasping as between said flexible retention arch beam and being adjacent to said first pivotal connection to cause said flexible retention arch beam to go from said free arched state to said de-arched state to facilitate said interlock to occur, at which point the manual compressible grasp is released, wherein said flexible retention arch beam progresses to said intermediate arched state to cause the compression force upon the article from said first and second arcuate elements in said closed state. |
