This invention relates to a fastener for a floor panel adapted to be secured to a pedestal wherein the fastener is held captive in said floor panel.
Elevated floor structures have gained much prominence with the advent of computer systems. Such elevated floor structure can consist of access floor panels elevated from the floor wherein the floor panels are in adjacent side-by-side relation in a rectangular array. Generally speaking, the panels are supported at their corners by spaced pedestals which in turn are supported on a sub-floor. Space between the sub-floor and floor panel is available for utility lines, air ducts, computer wire or the like. Generally speaking, the access floor panels are secured to the pedestal in a manner well known to those persons skilled in the art. The floor panels may be removed from the pedestals by unthreading the fasteners from the pedestals. However quite often when the access floor panels are removed the fasteners are lost, particularly when the panels are removed and turned upside down.
A variety of fastening means have heretofore been designed including those disclosed in U.S. Pat. Nos. 6,256,952, 5,862,643, and 5,749,616.
Moreover U.S. Pat. No. 5,546,717 teaches a self-threading pedestal screw which passes through a plastic insulator, then penetrating a pedestal screw passage. Finally U.S. Pat. No. 5,509,242 teaches fasteners to extend through the panel exterior and interior surfaces as disclosed.
It is an object of this invention to provide an improved fastener for floor panel to be secured to a pedestal whereby the fastener is held captive in the floor panel.
It is an aspect of this invention to provide a fastener for a floor panel adapted to be secured to a pedestal wherein the fastener is operable to move to a position to fasten the floor panel to the pedestal and a position to permit withdrawal of the floor panel from the pedestal while being captured by the floor panel.
It is another aspect of this invention to provide a fastening system adapted to be disposed in a hole of a floor panel for securing the floor panel to a pedestal comprising a sleeve having an axial length and adapted to be retained in the hole; a fastener co axially disposed in the sleeve and axially displaceable relative said sleeve between a first and second position, the fastener including a head at one end and a threaded end axially displaced from the head for threaded engagement with the pedestal when securing the floor panel to the pedestal in a first position; the sleeve including structure for inhibiting the fastener from being removed from the sleeve when the panel is removed from the pedestal in a second position.
These and other objects and features shall now be described in relation to the following drawings:
Like parts have been numbered with like numbers throughout the figures.
The fastener 10 is adapted to be secured to the pedestal (not shown) wherein the fastener 10 is operable to move to a first or secured position to fasten the floor panel 2 to the pedestal and a second or withdrawn position to permit withdrawal of the floor panel 2 from the pedestal (not shown) while being captured by the floor panel. In other words, when the fastener 10 is unthreaded from the pedestal (not shown) the floor panel 2 can be removed.
The floor panel 2 presents means 30 to restrain the threaded end 14 from being removed from the floor panel when the floor panel 2 is withdrawn from the pedestal. The restraining means 30 comprises in one embodiment a sleeve 40 adapted to be disposed in a hole 42 presented in the floor panel 2. In particular the hole 42 extends from the top surface 4 to the bottom surface 6. The hole 42 frictionally receives the sleeve 30. Furthermore the hole 42 may include a chamfered portion 44 to accommodate the bevelled edge 20 of the fastener 10.
In one embodiment the retaining means 30 comprises sleeve 40 which includes means for inhibiting 50 the threaded end 14 from being removed from the sleeve when the floor panel 2 is removed from the pedestal even if the floor panel is moved upside down.
The sleeve 40 has an axial length and is adapted to be retained in the hole 42. The fastener 10 is co-axially disposed in the sleeve 10 and axially displaceable relative the sleeve 40 between said first position and said second position.
The fastener 10 is captive in the sleeve 40. The fastener 10 can be installed into the sleeve 40 by pressing the fastener 10 past the inhibiting means 50. In particular, in one embodiment shown in
The shank portion 18 is axially displaceable in the sleeve 40 without contacting the fingers 52 when the fastener 10 is moved between the first position or when the threaded end 14 is secured to the pedestal and a second position when the floor panel is removed from the pedestals, and the fastener 10 moves to a position where the threaded end 14 is blocked by the fingers 52.
More specifically the sleeve 40 presents an inner cylindrical surface 33 which presents a plurality of fingers 52 protruding from the surface towards the axis A. In the embodiment shown in
Furthermore the sleeve 40 presents a first end 35 adjacent to top surface 4 and a second end 37 adjacent the bottom surface 6. The shank portion 18 has an axial length to permit the head 12 to engage the top surface of the floor panel in the second secured position whereby the bevelled edge 10 contacts the chamfered portion 44 where the top of the head 10 is flush with the top surface 4. Furthermore the threaded portion 16 has an axial length less than the axial length between the second end 37 of the sleeve 30 and the plurality of fingers 52 so as to permit a threaded end 14 to be received in the sleeve 30.
In this fashion the fastener 10 floats freely in a vertical motion or in other words is axially displaceable between the first and second positions so as to allow the panel to be laid flat on a surface. When the floor panel 2 is laid flat the fastener 10 protracts upwardly. Furthermore when the panel 10 is lifted to be put back into the floor the fasteners 10 will drop down by gravity. Moreover the captive fastener 10 and in particular the head 12 does not drop below the top surface 4 or into the hole 42 of the panel and thus can not get caught inside the panel 2.
The fastener 10 may be of a self-threading type in a manner well known to those persons skilled in the art. Moreover the fastener 10 has a threaded portion 14 which is long enough to engage the female threaded portion of the pedestal as previously described. Furthermore the length of the shank 18 extending between the threaded portion 14 and at 16 may have a dimension less than the distance between the second end 37 of the sleeve and the fingers 52 as represented by the letter “H”. Furthermore the diameter of the head 12 is greater than the diameter of the hole 42.
In one embodiment the sleeve is comprised of plastic. The sleeve 40 can be pressed into the access floor panel 2. The plastic sleeve 40 has an inside diameter greater than the outside diameter of the threaded portion 14 of the fastener 10.
The inside of the sleeve can present the four fingers 52 shown or alternatively protrusions or bumps which have an opening between them of less than the outside diameter of the threaded portion 16 of the fastener 10 but less than the outside diameter of the shank portion 18.
The springs or bumps 50 in one embodiment are located at a distance from the bottom 37 of the sleeve 40 greater than the length of the threaded portion 14 of the fastener 10.
The sleeve can comprise a variety of materials including nylon, plastic or metal. Furthermore the sleeve 40 may act as a plug to prevent leakage from within the cavity 16 of the access floor panel 2 to prevent leakage when the panel is filled with cement, foam or other material.
Accordingly the inhibiting means shown in
In another arrangement as shown in
In particular the fastener system illustrated in
The sleeve 40 includes means 86 for catching the ring 84 so as to allow the fastener 12 to move between the first and second positions. The catching means 86 comprises of two spaced, centric, annular protrusions adapted to catch the ring 84 there between. Moreover the two protrusions 86 define a groove 87 therebetween.
The fingers 52 illustrated in
Although the preferred embodiment as well as the operation in use have been specifically described in relation to the drawings, it should be understood the variations in the preferred embodiment could be achieved by a person skilled in the trade without departing from the spirit of the invention as claimed herein.
Number | Date | Country | Kind |
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2,452,236 | Dec 2003 | CA | national |