Device for releasably securing a flexible liner about the rim of a supporting receptacle and a method therefore

Abstract

A fastener for releasably securing a flexible liner about a peripheral rim of a supporting receptacle has a generally planar body with a first leg and an interconnected second leg defining an inwardly tapered elongated space therebetween. An offset and elongated rotation handle carried at one end portion of the body opposite the first and second legs facilitates rotating the body axially about an axis of rotation to wind a portion of an edge portion of the flexible liner about the first and second legs, and a portion of the rotation handle releasably engages with the tensioned flexible liner to prevent the unwinding of the flexible liner.

Claims

1. A fastener for releasably securing an opening edge portion of a flexible liner about a rim of a supporting receptacle that has an exterior circumferential surface, the fastener comprising: a body having a generally planar first side, a generally planar second side, a first leg, a second leg, and a rotation handle that extends generally perpendicularly to the first leg and the second leg, and the body defines a rotation axis that extends along an elongated and tapered space defined between the first leg and the second leg; each of the first leg and the second leg has a first end portion that is proximate to the rotation handle, each of the first leg and the second leg has a second end portion that is distal from the rotation handle, and each of the first leg and the second leg has a length dimension; each of the first leg and the second leg has a laterally outer edge that is parallel to the rotation axis, each of the first leg and the second leg has a laterally inner edge, the laterally inner edge of the first leg is spaced apart from the laterally inner edge of the second leg by the elongated and tapered space, and an opening to the elongated and tapered space is defined between the second end portion of the first leg and the second end portion of the second leg; and each of the second end portion of the first leg and the second end portion of the second leg has an inwardly curved corner that communicates with the laterally inner edge of the respective leg, and each of the second end portion of the first leg and the second end portion of the second leg has an angular corner that communicates with the laterally outer edge of the respective leg; and the inwardly curved corner of the second end portion of the first leg and the inwardly curved corner of the second end portion of the second leg define the opening to the elongated and tapered space; and the elongated and tapered space has a length dimension extending between the opening to the elongated and tapered space and a terminal end of the elongated and tapered space that is proximate to the rotation handle; and the rotation handle is elongate and offset relative to the elongated and tapered space, the rotation handle has a first handle and a second handle opposite the first handle, each of the first handle and the second handle has a length dimension, and the length dimension of the first handle is not equal to the length dimension of the second handle.

2. The fastener of claim 1 and wherein a combined sum of the length dimension of the first handle of the rotation handle and the length dimension of the second handle of the rotation handle is greater than a combined sum of a width dimension of the first leg, a width dimension of the second leg, and a width dimension of the elongated and tapered space defined between the first leg and the second leg.

3. The fastener of claim 1 and further comprising: a lever arm extension between the rotation handle and the first end portion of the first leg and between the rotation handle and the first end portion of the second leg; and the lever arm extension has a length dimension between the terminal end of the elongated and tapered space and the rotation handle so as to space the first leg and the second leg away from the rotation handle.

4. The fastener of claim 1 and wherein the first handle of the rotation handle has a linear top edge and a bottom edge with a height dimension therebetween; and the second handle of the rotation handle has a linear top edge and a linear bottom edge with a height dimension therebetween, the first handle has a rounded terminal end opposite the second handle, and the second handle has a rounded terminal end opposite the first handle.

5. The fastener of claim 1 and wherein the length dimension of the second handle of the rotation handle is greater than the length dimension of the first handle of the rotation handle.

6. The fastener of claim 1 and further comprising: a lever arm extension between the rotation handle and the first end portion of the first leg and between the rotation handle and the first end portion of the second leg; and the lever arm extension has a length dimension between the terminal end of the elongated and tapered space and the rotation handle; and a combined sum of the length dimension of the first handle of the rotation handle and the length dimension of the second handle of the rotation handle is greater than a combined sum of the length dimension of the first leg, the length dimension of the lever arm extension, and a height dimension of the rotation handle.

7. The fastener of claim 1 and wherein the second handle is a lever arm that is configured to provide leverage for axial rotation of the body about the rotation axis.

8. The fastener of claim 1 and wherein the second handle of the rotation handle is configured to simultaneously frictionally engage with both the flexible liner and the exterior circumferential surface of the supporting receptacle for positionally retaining the body and preventing the body from rotating axially.

9. The fastener of claim 1 and further comprising: a lever arm extension between the rotation handle and the first end portion of the first leg and between the rotation handle and the first end portion of the second leg; and the fastener is configured to be engaged with the flexible liner by axially rotating the body in a first direction about the rotation axis so as to simultaneously wind a portion of the opening edge portion of the flexible liner about the first leg, the second leg, and the lever arm extension; and the fastener is configured to be prevented from disengaging with the flexible liner by direct frictional contact of the body with the exterior circumferential surface of the supporting receptacle to prevent the body from rotating axially in a second direction.

10. A fastener for releasably securing an opening edge portion of a flexible liner about a rim of a supporting receptacle that has an exterior circumferential surface, the fastener comprising: a body having a generally planar first side, a generally planar second side, a first leg, a second leg, a lever arm extension, and a rotation handle that extends generally perpendicularly to the lever arm extension, the first leg, and the second leg, and the body defines a rotation axis; and each of the first leg and the second leg has a first end portion that is interconnected with the lever arm extension, each of the first leg and the second leg has a second end portion that is distal from the lever arm extension and the rotation handle, and each of the first leg and the second leg has a length dimension; and each of the first leg and the second leg has a laterally outer edge that is parallel to the rotation axis, each of the first leg and the second leg has a laterally inner edge opposite the laterally outer edge of the respective leg, the laterally inner edge of the first leg is spaced apart from the laterally inner edge of the second leg by an elongated space that is defined between the laterally inner edge of the first leg and the laterally inner edge of the second leg, and the elongated space tapers inwardly toward the lever arm extension, opposite the second end portion of the first leg, and opposite the second end portion of the second leg; and each of the second end portion of the first leg and the second end portion of the second leg has an inwardly curved corner that communicates with the laterally inner edge of the respective leg, each of the second end portion of the first leg and the second end portion of the second leg has an angular corner that communicates with the laterally outer edge of the respective leg, and the inwardly curved corner of the second end portion of the first leg and the inwardly curved corner of the second end portion of the second leg define an opening to the elongated space; and the elongated space has a length dimension that extends between the opening to the elongated space and a terminal end of the elongated space that is proximate to the lever arm extension, and the elongated space has a width dimension at the opening to the elongated space and a width dimension at the terminal end of the elongated space that is less than the width dimension at the opening to the elongated space; and the rotation axis of the body extends through the terminal end of the elongated space and the opening to the elongated space; and the lever arm extension structurally communicates between the first end portion of the first leg and the rotation handle and between the first end portion of the second leg and the rotation handle, and the lever arm extension has a length dimension between the terminal end of the elongated space and the rotation handle to space the first leg and the second leg away from the rotation handle; and the rotation handle is elongate and offset relative to the rotation axis, the rotation handle includes a first handle that has a linear top edge and a bottom edge with a height dimension therebetween, the rotation handle includes a second handle that has a linear top edge and a linear bottom edge with a height dimension therebetween, and each of the first handle and the second handle has a length dimension, and the length dimension of the first handle and the length dimension of the second handle are not equal to one another, the rotation handle structurally communicates with the lever arm extension opposite the first leg and the second leg, and each of the first handle and the second handle has a terminal end that is rounded.

11. A method for using a fastener for releasably securing an opening edge portion of a flexible liner about a rim of a supporting receptacle that has an exterior circumferential surface, the method comprising the steps: providing the fastener that has a body with a generally planar first side, a generally planar second side, a first leg, a second leg, and a rotation handle that extends generally perpendicularly to the first leg and the second leg, the body defines a rotation axis, each of the first leg and the second leg has a laterally outer edge that is parallel to the rotation axis, each of the first leg and the second leg has a laterally inner edge, the laterally inner edge of the first leg is spaced apart from the laterally inner edge of the second leg by an elongated space, an opening to the elongated space is defined between the laterally inner edge of the first leg and the laterally inner edge of the second leg and opposite the rotation handle, the elongated space has a length dimension between the opening to the elongated space and a terminal end of the elongated space proximate to the rotation handle, the elongated space is tapered inwardly toward the terminal end of the elongated space, the rotation axis extends though the opening to the elongated space and the terminal end of the elongated space, each of the first leg and the second leg has an inwardly curved corner that communicates with the laterally inner edge of the respective leg, each of the first leg and the second leg has an angular corner that communicates with the laterally outer edge of the respective leg, the inwardly curved corner of the first leg and the inwardly curved corner of the second leg define the opening to the elongated space, the rotation handle is elongate and offset relative to the rotation axis, the rotation handle has a first handle and a second handle, each of the first handle and the second handle has a length dimension, and the length dimension of the first handle and the length dimension of the second handle are not equal to one another; passing an edge of the opening edge portion of the flexible liner into and through the opening to the elongated space between the first leg and the second leg and into the elongated space, so that the edge of the opening edge portion of the flexible liner is in direct physical contact with the terminal end of the elongated space; rotating the body axially about the rotation axis by means of the rotation handle by twisting the body in a clockwise direction, or a counterclockwise direction, to cause a portion of the edge of the opening edge portion of the flexible liner to wind around and about the first leg, the second leg, and the lever arm extension, so that the flexible liner becomes tensioned or stretched about the rim of the supporting receptacle and a portion of the exterior circumferential surface of the supporting receptacle; positionally restraining the body of the fastener that is engaged with the tensioned or stretched flexible liner to prevent the body of the fastener from unwinding; drawing a portion of the opening edge portion of the tensioned or stretched flexible liner that is proximate to the body of the fastener outwardly from the exterior circumferential surface of the supporting receptacle; tucking the second handle of the rotation handle under the drawn out portion of the opening edge portion of the tensioned or stretched flexible liner, so that the second handle of the rotation handle is between the opening edge portion of the tensioned or stretched flexible liner and the exterior circumferential surface of the supporting receptacle and in direct physical frictional contact with the exterior circumferential surface of the supporting receptacle; and releasing the opening edge portion of the tensioned or stretched flexible liner to positionally secure the second handle of the rotation handle of the body of the fastener between the flexible liner and the exterior circumferential surface of the supporting receptacle.

Description

BRIEF DESCRIPTIONS OF DRAWINGS

(1) In the accompanying drawings which form a part hereof and wherein like numbers refer to similar parts throughout:

(2) FIG. 1 is a perspective second side, top and right side view of my fastener for releasably securing a flexible liner about the rim of a supporting receptacle.

(3) FIG. 2 is an orthographic first side view thereof.

(4) FIG. 3 is an orthographic right side view thereof.

(5) FIG. 4 is an orthographic second side view thereof.

(6) FIG. 5 is an orthographic left side view thereof.

(7) FIG. 6 is an orthographic top view thereof.

(8) FIG. 6A is an enlarged partial cutaway view of FIG. 6 showing the details of the edge portion.

(9) FIG. 7 is an orthographic bottom view thereof.

(10) FIG. 8 is an orthographic inverted second side environmental view of my fastener in a first step of engaging with an opening edge portion of a flexible liner extending about an upper outer peripheral rim of a supporting receptacle, prior to tightening/rotation/twisting.

(11) FIG. 9 is an orthographic inverted second side environmental view of my fastener in a second step showing engagement with an opening edge portion of a flexible liner extending about an upper outer peripheral rim of a supporting receptacle, and undergoing tightening/rotation/twisting.

(12) FIG. 10 is an orthographic inverted second side environmental view of my fastener in a third step showing my fastener engaged with an opening edge portion of a flexible liner extending about an upper outer peripheral rim of a supporting receptacle, after tightening/rotation/twisting, and showing the longer leg engaged under the flexible liner so as to be retained in position to secure the flexible liner about the receptacle.

(13) FIG. 11 is an orthographic inverted second side environmental view, similar to FIG. 10, showing my fastener in an installed and use position relative to the flexible liner and relative to the supporting receptacle.

DETAILED WRITTEN DESCRIPTION OF THE PREFERRED EMBODIMENTS

(14) This disclosure of the invention is submitted in furtherance of the Constitutional purposes of the U.S. Patent Laws “to promote the progress of science and useful arts” (Article 1, Section 8).

(15) The fastener of the present invention is generally indicated by the numeral 9 in FIG. 1 and following.

(16) A fastener 9 for releasably securing an opening edge portion 56 of a flexible liner 55 about a peripheral rim 63 of a supporting receptacle 57 provides a body 10 having a generally planar first side 11 and a generally planar opposing second side 12, a first leg 16, a second leg 20, a lever arm extension 35, and a rotation handle 40.

(17) As shown in FIGS. 1, 2 and 4, the body 10 is somewhat “T” shaped. The first leg 16 and the second leg 20 each extend somewhat vertically downwardly, and each have a first end portion 17, 21 that is interconnected with the lever arm extension 35, and each of the first leg 16 and the second leg 20 have a second end portion 18, 22 that is distal from the lever arm extension 35. Further, each of the first leg 16 and the second leg 18 have a length dimension 27. (FIG. 2).

(18) The first leg 16 and the second leg 20 each have a laterally outer edge 16a, 20a and each have a spaced apart laterally inner edge 16b, 20b, and the laterally inner edge 16b of the first leg 16 is spaced apart from the laterally inner edge 20b of the second leg 20 by an elongated space 23 that is defined therebetween.

(19) The second end portion 18 of the first leg 16, and the second end portion 22 of the second leg 20 each define an inwardly curved corner 31, 32 (FIG. 2) that communicates with the respective laterally inner edge 16b, 20b and each define an angular corner 33, 34 that communicates with the respective laterally outer edge 16a, 20a. The inwardly curved corners 31, 32 of the second end portions 18, 22 of the first and second legs 16, 20 respectively define an opening 24 to the elongated space 23.

(20) Best shown in FIG. 2, the elongated space 23 has a length dimension 26 between the opening 24 and a terminal end 25 of the elongated space 23 proximate the lever arm extension 35. Further, the elongated space 23 has a first width dimension 28 proximate to the opening 24, and a smaller second width dimension 29 proximate to the terminal end 25. The first width dimension 28 is larger than the second width dimension 29 so that the elongated space 23 is tapered inwardly toward the terminal end portion 25. The inwardly tapering enhances “gripping” and surface friction so that the fastener 9 more securely engages with the edge portion 56 of the liner 55.

(21) As shown in FIGS. 1, 2 and 4, a rotation axis 30 is defined between the first leg 16 and the second leg 20, and the rotation axis 30 extends along and parallel to the medial space 23. In use, the body 10 is axially twisted about the rotation axis 30.

(22) The lever arm extension 35 structurally communicates between the first end portions 17, 21 of the first and second legs 16, 20 respectively, and the rotation handle 40. The lever arm extension 35 has a length dimension 36 (FIG. 2) between the terminal end 25 of the elongated space 23 and the rotation handle 40 so as to space the first and second legs 16, 20 away from the rotation handle 40 to facilitate winding a portion of the flexible liner 55 about the fastener 9, as shown in FIG. 10. Because some flexible bag-type liners 55 have an incorporated drawstring type closure (not shown) within the edge portion 56, the edge portion 56 typically has a greater thickness dimension (not shown) that is accommodated by the lever arm extension 35. Further, the increased thickness dimension (not shown) is better gripped by the inwardly tapering of the elongated space 23, and the terminal and 25 thereof.

(23) The rotation handle 40 is interconnected with (or integral with) the lever arm extension 35 opposite the legs 16, 20. The rotation handle 40 is elongate and is generally perpendicular to, and offset, relative to the rotation axis 30. The rotation handle 40 has a first handle 47 proximate to the first leg 16 that has a linear top edge 48 and a bottom edge 49 with a height dimension 51 therebetween. The rotation handle 40 further has a second handle 41 proximate to the second leg 20 that has a linear top edge 42 and a linear bottom edge 43 with a height dimension 45 therebetween. Each of the first handle 47 and the second handle 41 has a length dimension 50, 44 respectively and the length dimensions 50, 44 are not equal to one another so that the rotation handle 40 may provide leverage for rotation of the body 10 about the axis of rotation 30, and the stretching of the flexible liner 55.

(24) The length dimension 44 of the second handle 41, which is greater than the length dimension 50 of the first handle 47, further facilitates securing the fastener 9 to the supporting trash receptacle 57 by utilizing the elasticity and resiliency of the flexible liner 55.

(25) As shown in FIGS. 10 and 11, after the rotation handle 40 has been utilized to apply a torqueing force to “wind”/“wrap” an amount of the edge portion 56 of the flexible liner 55 about the two legs 16, 20 and the lever arm extension 35, the second handle 41 is “tucked” under the now “tightened”/“stretched” edge portion 56 of the flexible liner 55. The tension of the “tightened”/“stretched” edge portion 56 positionally secures a portion of the rotation handle 40 between (under) the flexible liner 55 and frictionally against an exterior surface of the supporting receptacle 57. The elasticity and tension of the “tightened”/“stretched” liner 55 prevents the fastener 9 from “un-twisting”. Each of the first handle 47 and the second handle 41 have a terminal end 52, 46 respectively opposite the opposing handle 41, 47, and each terminal end 52, 46 is rounded so as to not unintentionally tear or pierce the flexible liner 55.

(26) As shown in enlarged FIG. 6A, the terminal ends 46, 52 need not be 90° corners, relative to the first and second planar sides 11, 12 respectively, but rather the terminal ends 46, 52 may be angulated/beveled to enhance gripping of the fastener 9 to the flexible liner 55.

(27) Thickness 13 of the body 10 between the first planar side 11 and the second planar side 12 is between approximately 2.5 millimeters and 10 millimeters and is optimally approximately 5 millimeters so that my fastener 9 may be used to secure a flexible liner 55 about upper peripheral rim 63 of an inner member (not shown) of a sleeve-type trash receptacle 57. The minimal thickness 13 of the body 10 allows my fastener 9 to be placed in adjacency to the upper peripheral rim 63 of inner member and allows the inner member slide axially into the chamber (not shown) defined by outer member (not shown) of the sleeve type trash receptacle 57 without interfering with the operation of any movable receptacle top or the co-axial engagement of the two sleeve-type receptacles.

(28) My fastener 9 is preferably formed of poly-carbonate which provides a durable, rigid and cost effective material that may be molded, extruded or stamped for ease of manufacture, is easy to clean and is not subject to bacterial contamination and the like. Other materials having similar desirable characteristics include but are not limited to metallic alloys, ceramics, plastic, nylon, fiberglass, carbon fiber, polypropylene and the like. Further, my fastener 9 may be formed as a unitary single piece body 10, or my fastener 9 may be manufactured in plural pieces which are thereafter joined together to form the body 10.

(29) My invention is further a method for using my fastener 9 for releasably securing an opening edge portion 56 of a flexible liner 55 about a rim 63 of a supporting receptacle 57 comprising the steps:

(30) Providing a fastener 9 having a body 10 with a generally planar first side 11 and a generally planar opposing second side 12, a first leg 16, a second leg 20, and a rotation handle 40 that extends generally perpendicularly to the first leg 16 and the second leg 20, and the body 10 defines a rotation axis 30 that is parallel to the first leg 16 and to the second leg 20, and wherein the first leg 16 and the second leg 20 each have a laterally outer edge 16a, 20a and each have a laterally inner edge 16b, 20b, and the laterally inner edge 16b of the first leg 16 is spaced apart from the laterally inner edge 20b of the second leg 20 by an elongated space 23 that is defined between the first leg 16 and the second leg 20, and an opening 24 to the elongated space 23 is defined between the first leg 16 and the second leg 20 opposite the rotation handle 40, and wherein the elongated space 23 has a length dimension 27 between the opening 23 and a terminal end 25 of the elongated space 23 proximate to the rotation handle 40, and wherein the rotation handle 40 is elongate and is offset relative to the rotation axis 30, and has a first handle 47 and an opposing second handle 41 and each of the first handle 47 and the second handle 41 have a length dimension 50, 44 and the length dimensions 50, 44 of the first handle 47 and the second handle 41 are not equal to one another.

(31) Passing an edge portion 56 of flexible liner 55 into and through opening 24 between the first and second legs 16, 20 and into the elongated space 23 defined between the first leg 16 and the second leg 20 so that the edge portion 56 of the flexible liner 55 is in direct physical contact with the terminal end 25 of the elongated space 23.

(32) Rotating the body 10 axially about the rotation axis 30 by means of the rotation handle 40 by twisting the body 10 in a clockwise direction, or in a counterclockwise direction, to cause a portion of the edge portion 56 of the liner 55 to wind around/gather around and about the first leg 16 and second leg 20, and the lever arm extension 35 so that the liner 55 becomes tensioned/stretched about a periphery of the receptacle 57.

(33) Positionally retaining the body 10 that is engaged with the tensioned/stretched liner 55 to prevent the body 10 from unwinding relative to the liner 55.

(34) Drawing an edge portion 56 of the tensioned/stretched liner 55 that is proximate the rotation handle 40 outwardly from supporting receptacle 57.

(35) Tucking a portion 41 of the rotation handle 40 under the drawn out edge portion 56 of the tensioned/stretched liner 55 so that the tucked under portion of the rotation handle 40 is between the tensioned/stretched liner 55 edge portion 56 and the supporting receptacle 57; and releasing the edge portion 56 of the tensioned/stretched liner 55 to positionally secure the tucked under portion 41 of the rotation handle 40 between the liner 55 and the supporting receptacle 57.

(36) Having described the structure of my fastener 9 for releasably securing a flexible liner 55 about the peripheral rim 63 of a supporting receptacle 57 its operation may be understood.

(37) As shown in FIG. 8, a flexible liner 55, (in this particular instance a bag-type liner), is placed within a supporting receptacle 57 so that bottom portion (not shown) of the liner 55 is within receptacle chamber (not shown) and the upper edge portion 56 of the liner 55 is folded over and downwardly about the receptacle peripheral rim 63. The edge portion 56 of liner 55 is passed into and through opening 24 between the first and second legs 16, 20 and into the elongated space 23 defined between the first leg 16 and the second leg 20 so that the edge portion 56 is in direct physical contact with the terminal end 25 of the elongated space 23. It is preferable that the body 10 be positioned angularly relative to the edge portion 56 of the liner 55 so that the axis of rotation 30 is not perpendicular to the edge portion 56. The angular positioning of the body 10 relative to the edge portion 56 causes engagement of the fastener 9 with the liner 55 to be more positionally secure.

(38) The body 10 is then rotated about the rotation axis 30 using the rotation handle 40 by twisting in a clockwise direction, or a counterclockwise direction. The axial rotation of the body 10, about the rotation axis 30, causes a portion of the edge portion 56 of the liner 55 extending over and about the upper peripheral rim 63 to wind around/gather around the first leg 16 and second leg 20, and the lever arm extension 35. As the liner 55 is wound about the first and second legs 16, 20, and the lever arm extension 35, the edge portion 56 of the liner 55 is tensioned/stretched about the outer circumference of the receptacle 57 spacedly below the peripheral rim 63. Because the liner 55 has inherent resiliency, the stretching of the edge portion 56, as it is wound about the first and second legs 16, 20, and lever arm extension 35 creates a torqueing force (not shown) in a direction opposite to which the body 10 has been rotated to wind the liner 55 thereabout. The rotation handle 40 and the length 44 of the second handle 41 facilitates the winding/twisting by increasing/enhancing leverage relative to the axis of rotation 30.

(39) The winding of the flexible bag type liner 55 about the first and second legs 16, 20 and lever arm extension 35 will generally cause the body 10 to bias to an even more angular orientation as shown in FIGS. 9 and 10 as the edge portion 56 of the liner 55 is stretched/tensioned.

(40) After the edge portion 56 of the liner 55 has been stretched/tensioned to a point where it is securely engaged about a rim of the supporting receptacle 57, the fastener body 10 is restrained in place by the user (prevented from unwinding) and the user pulls the now stretched/tensioned flexible liner 55 generally radially outwardly from the receptacle 57. A portion of the length 44 of the second handle 41 is then be “tucked” under the edge portion 56 of the flexible liner, as shown in FIGS. 10 and 11. The placement of the second handle 41 under the edge portion 56, and in direct frictional contact with the supporting receptacle 57 prevents the body 10 from rotating in the opposite direction from which the flexible liner 55 is wound upon on to the body 10. The inherent elasticity of the flexible liner 55 positionally maintains the fastener 9, and responsively secures the flexible liner 55 to and about the supporting receptacle 57. (FIG. 11).

(41) It is also possible to secure the fastener 9 to the liner 55 and receptacle 57 in a second technique, by (after wrapping/twisting a portion of the liner edge 56 about the legs 16, 20 and lever arm extension 35) pivoting the body 10 along a “Z-axis” (not shown) so that the second end portions 18, 22 of the first and second legs 16, 20 respectively, are drawn/rotated outwardly relative to the proximate surface of the receptacle 57, and simultaneously the entire rotation handle 40 and lever arm extension 35 are pushed upwardly and inwardly toward the proximate surface of the receptacle 57, and thereafter the tightened/stretched liner edge 56 is released to pull the body 10 immediately adjacent the receptacle 27. In this second technique, the fastener 9 is entirely under the liner 55 and is completely hidden from view, and the first and second legs 16, 20 are generally angulate downwardly similar to the orientation of the body 10 shown in FIG. 1. When hidden from view, the fastener 9 is less likely to be stolen.

(42) In the event the liner 55 is used to “line” the interior, and/or an exterior of a tube (not shown) the process of tightening the fastener 9 would be performed at both ends of the tube.

(43) To release the fastener 9 from the receptacle 57, the user simply grasps the rotation handle 40 and “un-tucks” the second handle 41 from underneath the edge portion 56. The inherent resiliency of the liner 55 will cause the fastener 9 to unwind, whereupon the fastener 9 may be removed from the edge portion 56, and the liner 55 may be removed from the receptacle 57.