Structures to allow spaces of appropriate size to be created between adjacent anchor sheets and attachment pieces when installing the anchor sheets and attachment pieces to form a subfloor.
Several earlier patent applications filed by the same inventor disclose an anchor sheet which can be supplied as a small or large module, with or without a pre-attached decorative covering, including the current inventor's U.S. applications Ser. Nos. 08/850,720 filed May 2, 1997, 09/008,565 filed Jan. 16, 1998 and 09/008,584 filed Jan. 16, 1998. These earlier cases also disclose the anchor sheet as a modular unit which can form a contiguous mass of anchor sheet to be used as a subfloor to which a decorative covering is to be attached or as a finished floor when presupplied with a decorative surface. Such a contiguous mass can be formed by attaching the anchor sheets together by some form of overlap or by abutting the anchor sheets to each other and using an overlap of decorative covering or tape. Such mass can be free floating or attached to the floor.
The current invention relates to spacing structures for use with anchor sheets and attachment pieces which when abutted or overlapped can form a subfloor for detachable attachment of overlying decorative coverings. The attachment pieces (also called attachment devices or corner pieces) are shaped to fit into countersunk passageways formed through the anchor sheets when laid to cover a floor. If the attachment pieces are attached to the floor, the attachment pieces will hold down surrounding anchor sheets without attachment to the anchor sheets themselves.
One aspect of the invention is a structure on the attachment pieces which can be a deformable margin extending horizontally from the attachment pieces or anchor sheets. This deformable margin creates a suitable spacing between anchor sheets and between anchor sheets and attachment pieces during the installation of the anchor sheet and attachment piece subfloors. The margin, being deformable, may be squeezed and will deform during atmospheric expansion of the anchor sheets to accommodate the change in size due to temperature changes or changes in atmospheric conditions. There are numerous structures that can serve as a deformable margin. In some cases, the deformable margin is collapsible, in that the margin will collapse under a force and not return to its original shape when the force is removed. In some cases, the deformable margin is resilient, in that after the margin is deformed by a force, it will return to its original shape after the force is removed. In some cases, the deformable margin is only partially resilient, in that it will return only part-way to its original shape after the force is removed. Over time, a resilient structure may begin to lose resiliency, for example if there is a “loss of memory” from use over time.
A second structure is a removable or detachable margin extending horizontally from the attachment pieces or anchor sheets. This removable margin creates a suitable spacing between anchor sheets and between anchor sheets and attachment pieces during the installation of the anchor sheet and attachment piece subfloors. Once removed, the margin leaves a space to accommodate the change in size of the anchor sheets due to temperature changes or changes in atmospheric conditions. There are numerous structures that can serve as a removable margin.
In a first aspect of the invention, there is provided an attachment piece for use in a subfloor with at least one anchor sheet, the at least one anchor sheet having a recess of a first shape in a first area, the anchor sheet having a complete cut of a second area of a second shape, and said second area lying within the first area, the attachment piece comprising: a first portion having an upper surface extending horizontally and shaped to fit in the recess; a second portion attached to the first portion and shaped to fit in the complete cut; the second portion having at least one resilient layer; a spacing structure; the spacing structure on at least one of the first portion or the second portion to establish a horizontal stand-off distance between the attachment piece and the at least one anchor sheet during installation.
In a feature of this aspect, the spacing structure is a deformable margin. In another feature of this aspect, the spacing structure is a removable margin on the first portion. In yet another feature of this aspect, the deformable margin is on the first portion. In still another feature of this aspect, the deformable margin is on the second portion. In yet another feature of this aspect of the invention, the deformable margin comprises a plurality of deformable protrusions. In still another feature of this aspect, the deformable margin is resilient or partially resilient. In yet another feature of this aspect, this aspect further comprises a countersunk hole for receiving a fastener.
In a second aspect of this invention, there is provided an attachment piece comprising a body extending axially and a head radially larger than the body formed on an axial end of the body, the head having a spacing structure, an aperture extending axially through the head and body for receiving a fastener and having a countersunk portion for recessing the head of the fastener at or below the surface of the head of the attachment piece, and a spacing structure located on either the body or the head, the spacing structure extending transverse to the axis. In a feature of this aspect, the spacing structure is a deformable margin. In another feature of this aspect, the spacing structure is a removable margin on the head. In yet another feature of this aspect, the deformable margin is on the head. In still another feature of this aspect of the invention, the deformable margin is on the body. In yet another feature of this aspect, the removable margin has a pull tab. In still another feature of this aspect, the deformable margin comprises a plurality of deformable protrusions around the perimeter of the attachment piece. In yet another feature of this aspect, the deformable margin is resilient or partially resilient.
In another aspect of the invention, there is provided an anchor sheet for use in a subfloor for detachable attachment to a decorative covering, the anchor sheet comprising: an upper surface having a means for detachable attachment to the decorative covering; a lower surface opposite the upper surface, the lower surface being covered with a resilient layer; a recess of a first shape reducing the thickness of the anchor sheet in a first area; a complete cut through the anchor sheet of a smaller second area within the first area of a second shape; and a spacing structure positioned on the anchor sheet to space adjacent anchor sheets or attachment pieces.
In a feature of this aspect, the anchor sheet further comprises: the anchor sheet having at least two adjacent edges which have a lower portion cut away to create an overhanging area of anchor sheet and at least two adjacent lower edges substantially under the overhang; and the anchor sheet having at least two adjacent edges which have an upper portion cut away to create an underlay area of anchor sheet leaving at least two adjacent underlay edges at the outer edge of the underlay.
In another feature of this aspect, the spacing structure is a deformable margin. In yet another feature of this aspect, the spacing structure is a removable margin. In still another feature of this aspect, the spacing structure is in the first area. In yet another feature of this aspect, the spacing structure is in the second area. In still another feature of this aspect of the invention, the deformable margin is resilient or partially resilient. In yet another feature of this aspect, the deformable margin comprises a plurality of deformable protrusions.
In another aspect of the invention, there is provided a method of installing an anchor sheet and attachment piece subfloor over a floor, the subfloor to receive a detachable decorative covering, said anchor sheets having an upper surface having a means for detachable attachment to the decorative covering and a cut-away section of reduced thickness of a first area of a first shape and a complete cut through the anchor sheet of a smaller second area of a second shape within the first area, said attachment pieces having an upper surface having a means for detachable attachment to the decorative covering, and said attachment pieces having a spacing structure positioned to space surrounding anchor sheets, comprising the steps of: laying the anchor sheets over a floor; inserting the attachment pieces in the complete cut areas; and attaching at least some of the attachment pieces to the floor while arranging the surrounding anchor sheets so the surrounding anchor sheets touch but do not deform the spacing structures.
In a feature of this aspect, the anchor sheets are designed to overlap and the step of laying the anchor sheets over a floor consists of laying the anchor sheets in overlapping fashion over a floor. In yet another feature of this aspect, the spacing structure is a removable margin, and the method has the additional step of removing the spacing structures. In still another feature of this aspect of the invention, the spacing structure has a pull tab. In yet another feature of this invention, the spacing structure is a deformable margin. In still another feature of this invention, the deformable margin comprises a plurality of deformable protrusions. In yet another feature of the invention, the deformable margin is resilient or partially resilient.
In another aspect of the invention, there is provided a method of installing an anchor sheet and attachment piece subfloor over a floor, the subfloor to receive a detachable decorative covering, said anchor sheets having an upper surface having a means for detachable attachment to the decorative covering and a cut-away section of reduced thickness of a first area of a first shape and a complete cut through the anchor sheet of a smaller second area of a second shape within the first area, said attachment pieces having an upper surface having a means for detachable attachment to the decorative covering, and said anchor sheets having a spacing structure positioned to fend surrounding anchor sheets and attachment pieces, comprising the steps of: laying the anchor sheets over a floor; inserting the attachment pieces in the complete cut areas; and attaching at least some of the attachment pieces to the floor while arranging the surrounding anchor sheets so the anchor sheets and attachment pieces touch but do not deform the spacing structures.
In a feature of this aspect, the anchor sheets are designed to overlap and the step of laying the anchor sheets over a floor consists of laying the anchor sheets in overlapping fashion over a floor. In another feature of this aspect of the invention, the spacing structure is a removable margin, and the method has the additional step of removing the spacing structures. In still another feature of this aspect, the spacing structure is a deformable margin. In yet another feature of this aspect, the deformable margin comprises a plurality of deformable protrusions.
In another aspect of the invention, there is provided a floor for covering a structure to form a surface, the floor comprising: a plurality of anchor sheets; the plurality of anchor sheets being arranged to substantially cover the structure to form a floor having an upper surface; a plurality of passageways having walls extending from the upper surface of the floor to the structure below; the passageways having a portion countersunk from the upper surface of the floor, forming a first bearing surface below the plane of the floor; the plurality of attachment pieces being shaped to fit into the passageways, the attachment pieces having a wider upper portion to create a second bearing surface; the plurality of attachment pieces being inserted into the passageways such that the second bearing surface faces the first bearing surface in which at least some of the attachment pieces have a deformable margin to space the pieces from the walls of the passageway; and in which at least some of the attachment pieces with the deformable margin are attached to the floor.
In another aspect of the invention, there is provided an attachment piece for use with a floor formed from units to cover a structure, the floor having walled passageways extending from an upper surface of the floor to the structure below, the passageways having a portion countersunk from the upper surface of the floor forming a first bearing surface below the plane of the floor, the attachment piece comprising: a piece shaped to fit into the passageways having a wider upper portion to create a second bearing surface to face the first bearing surface on the countersunk portion of the passageway, and in which the attachment piece has a deformable periphery to space the piece from the walls of the passageway.
a shows an attachment piece with a deformable ring and spoke spacing structure which could be used with the anchor sheet of
b is a plan view of the attachment piece of
a shows an attachment piece with a deformable O-ring spacing structure which could be used with the anchor sheet of
b is a plan view of the attachment piece of
The current invention relates to spacing structures for use with anchor sheets and attachment pieces as for instance in U.S. applications Ser. Nos. 08/850,726 filed Jan. 16, 1998 and 09/008,584 filed Jan. 16, 1998, which when assembled can form a subfloor for detachable attachment of overlying decorative coverings. The attachment pieces (also called attachment devices or corner pieces) are shaped to fit into countersunk passageways formed through the anchor sheets when laid to cover a floor. If the attachment pieces are attached to the floor and not to the anchor sheets, the attachment pieces will hold down surrounding anchor sheets, while allowing the surrounding anchor sheets to ride under the attachment pieces while expanding and contracting with atmospheric changes.
This application incorporates by reference the teachings of current inventor's U.S. applications Ser. Nos. 08/850,726 filed May 2, 1997, 09/008,565 filed Jan. 16, 1998 and 09/008,584 filed Jan. 16, 1998, except where those teachings may have been modified by new developments as set out herein.
There are advantages to having the anchor sheet and attachment piece subfloor attached at only a few discrete attachment points. In particular, if the sheets and attachment pieces are spaced apart, this will allow for a more stable subfloor in which the anchor sheets can expand and contract to accommodate atmospheric changes such as temperature and humidity. It is envisaged that the anchor sheets and attachment pieces can be made of polyethylene or polypropylene. However, even these materials expand and contract sufficiently to cause a subsurface without spaces to buckle because of temperature changes. The problems caused by the buckling of a subfloor may also be exacerbated by changes in a carpet attached to the subfloor. Therefore, there are advantages to allowing some form of spacing or floating between the anchor sheets.
It may be somewhat difficult for a layperson, or even an experienced carpet-layer, to place the anchor sheets and attachment pieces across a floor and attach the attachment pieces to the floor while providing for an acceptable spacing between the anchor sheets and between the anchor sheets and attachment pieces. This spacing must be adequate to allow for expansion and contraction, but cannot be so large as to provide for excessive “play” between adjacent anchor sheets.
In one embodiment, the improved attachment pieces incorporating a spacing structure have a deformable margin extending outwardly from the upper portion of the attachment piece. This deformable margin creates a suitable spacing between anchor sheets during the installation of the anchor sheets, and allows even a relative neophyte to install an anchor sheet subfloor with suitable spacing between anchor sheets. The margin, being deformable, may be squeezed and will deform during atmospheric expansion of the anchor sheets to accommodate the change in size due to temperature changes or changes in atmospheric conditions. There are numerous structures that can serve as a deformable margin. In some cases, the deformable margin is resilient (or partially resilient).
In an alternative, the improved attachment pieces incorporating a spacing structure have a removable margin extending outwardly from the upper portion of the attachment piece. This removable margin creates a suitable spacing between anchor sheets during the installation of the anchor sheets. Once the subfloor is installed, the removable margin may be removed, leaving spacing to accommodate atmospheric expansion and contraction of the anchor sheets due to temperature changes or changes in atmospheric conditions.
In a further alternative, the deformable margin or removable margin may be located on the anchor sheets rather than the attachment pieces. In another alternative, both the anchor sheets and attachment pieces have a deformable margin or a removable margin. In another alternative, the deformable margin may extend outwardly from the lower portion of the attachment piece. In a further alternative, the anchor sheets may have overlap or underlay regions to allow the anchor sheets to overlap, and a spacing structure may be found on either the overlap or underlay regions.
As shown in
In practice, the hooks of the top surface layer 3 will be attached to the loops of an overlying carpet (not shown) when an entire anchor sheet subfloor has been installed. The anchor sheet has a thickness A. The appropriate thickness A will depend on the intended use of the anchor sheet, and may vary with the type of overlayment to be used. The thickness A will not be substantially less than 0.020 inches and generally will not be less than 0.062 inches. The preferred thickness A is around 0.125 inches, but the thickness A may be as much as 0.75 inches, for example in situations where a thick floor is to be replaced, or where a thick anchor sheet needs to be used to create a level surface with an adjacent surface. Cutaway from that thickness is an area 7 which will be shaped into some geometric shape, in this case a portion of a circle, so that when combined with similar abutting anchor sheets aligned along sides 9 and 11, a ¾ circular cut away area will be formed. A fourth anchor sheet diagonally opposite anchor sheet 1 will form a complete circle having a circular cut away area as described below. Typically, the cut-away area will be such that the thickness of the anchor sheet at 13 will be approximately half of the total thickness A of the anchor sheet. However, the width of the anchor sheet at 13 may be other than approximately half the total thickness A and still incorporate the teachings of this patent. In addition, there is a second area 14 which has been cut out from the corner (the apex of the angle formed by the two sides of the square). This second area 14 also has a geometric shape, in this example a ¼ of a circle, so that when combined with other anchor sheets, the anchor sheet edges are lined up so that their corners meet at the imaginary intersection of the four corners, and a second smaller circle will be formed in the completed anchor sheet structure.
As shown in
The preferred materials for the anchor sheet 1 and cushion 5 are polypropylene and polyethylene. In a preferred embodiment, the cushion 5 is made from linear low density polyethylene with a density of approximately 30 kg/m3. Other foams could be used such as polyurethane or rubber.
The anchor sheets 1 may be any size convenient for sale, transportation or installation, typically in the range of 12 inch by 12 inch square to 36 inch by 36 inch square. In a preferred embodiment, anchor sheet 1 is an approximately 24 inch by 24 inch square. In a second preferred embodiment, anchor sheet 1 is an approximately 25 inch by 25 inch square.
In a preferred embodiment, the cut away area 7 is circular in shape with a radius of 3 inches centred on the apex of the angles of sides 9 and 11. Cut out area 14 is circular in shape with a radius of 2 inches centred on the apex of the angles of sides 9 and 11. However, the cut away and cut out areas may vary in size.
Thus, a circular cut out area 14 within a second larger circular cut away area 7 is created when four similar anchor sheets abut each other. A complementary attachment piece (as shown in
Similarly, the upper portion of the attachment piece 39 is shaped to correspond to the cutaway portion 7. Again, this is a circle but could be another shape, particularly an equilateral polygon and the upper portion 39 need not be the same shape as cut away section 7. The upper portion 39, lower portion 33, cut away area 7 and cut out area 14 need not be the same shape, and could even be of four different shapes. In
The upper portion 39 and lower portion 33 of the attachment piece 31 will be covered with a rigid layer, may incorporate a rigid layer, or alternatively may simply consist of a rigid material. In a preferred embodiment, upper portion 39 is a rigid disk of 1/16 of an inch thick polypropylene or polyethylene in the shape of a circle with a six inch diameter. Lower portion 33 is a circular cylinder with a diameter of four inches, comprising a cushion layer ⅜ of an inch thick attached to upper portion 39 with a rigid layer of 1/16 of an inch thick polypropylene or polyethylene on the bottom of the cushion.
Fastening devices such as hook and loop or a screw, or nail, or liquid adhesive, or pressure-sensitive adhesive, can be used to attach the attachment pieces to a floor thereby holding the anchor sheet subfloor to the floor at only a few discrete points by use of the attachment pieces, with or without direct attachment to the anchor sheets to the floor or the attachment pieces.
An arrangement of overlapping anchor sheets and attachment pieces to form a subfloor can be seen in
As shown in
In a preferred embodiment, the anchor sheets 111 of
The anchor sheets 111 may have a cushion layer (not shown) attached to its bottom side. In a preferred embodiment, the thickness of thus cushion layer will be either approximately ¼ of an inch or ⅜ of an inch depending on the desired resiliency and amount of surface traffic. In a preferred embodiment, the hooks of the top surface layer of anchor sheet 111 will have a density that may vary from 160 to 1200 hooks per square inch, with a preferred density of approximately 330 hooks per square inch.
The preferred materials for the anchor sheet 111 and its optional cushion layer are polypropylene and polyethylene. In a preferred embodiment, the cushion layer is made from linear low density polyethylene with a density of approximately 30 kg/m3. Other foams could be used such as polyurethane or rubber.
In a preferred embodiment, anchor sheet 111 of
In a preferred embodiment, circle 115 of
The attachment pieces 31 could be attached to the underlying floor by use of a screw 42 as shown in
As shown in
The placement of the attachment pieces at the corners reduces the number of attachment points required, because each attachment piece overlaps four sheets. Because the corners of anchor sheets are an area of weakness there is less likely to be discontinuities or breakage with this attachment system. In addition, because fewer attachment points are required there is less degradation to the integrity of the anchor sheet because there are fewer holes in the anchor sheet. Having attachment pieces at the corners also limits irregularities where the anchor sheets meet caused by deviations in the floor. Finally, because the attachment pieces hold the anchor sheets down without a direct attachment of the anchor sheets to the underlying floor, it is possible to allow for movement of the anchor sheets in relation to the attachment pieces, including the handling of atmospheric expansion.
While attachment pieces located on corners of the anchor sheets have been described, it is possible to use the invention by providing a reduced thickness area along any edge of a modular anchor sheet and having a cut out area within the reduced thickness area to provide a structure for use of the attachment pieces described at that point. A reduced thickness area surrounding a cut out area may also be located anywhere in the interior of an anchor sheet for use of the attachment pieces at that interior point.
If the anchor sheets are held to the floor only via the attachment pieces, the anchor sheets can easily be removed and replaced if they are defective or require repair.
It is expected that the anchor sheets would likely be square, and preferably in the range of 36 inches by 36 inches to 12 inches by 12 inches, although anchor sheets outside of this range are also functional and fall within the scope of this invention.
The anchor sheets could be made of an extruded or molded material in which the two pieces are thermally bonded so as to form an overlap and underlay. The sheets could be cut by a gauge or jig. The anchor sheets could be die cut. A layer of hooks could be thermally bonded to the surface of the top sheet. Alternatively, the complete anchor sheet (potentially including hooks, and the two “layers” of the anchor sheet) could be injection-molded using a one-or two-step or multi-step process mold, using materials such as polypropylene or polyethylene.
The overlap and underlay areas of the anchor sheets may be provided with means for detachable or permanent attachment, or the underlay areas may simply lie underneath and support the overlap areas without any form of attachment. Alternatively, the anchor sheets may also be made with corresponding registering bumps and indentations (not shown) in the overlap and underlay portions of the anchor sheets to assist in retaining the anchor sheets together and in alignment during installation.
In all cases where hook and loop systems or hooks are provided for, the hooks may be temporarily covered by a hard slip covering as discussed in U.S. application Ser. No. 08/850,726 or a soft covering as disclosed in U.S. Pat. No. 4,822,658 to temporarily prevent premature engagement of the hooks to loops.
As noted above, it is desirable to leave a space between the anchor sheets 111 and attachment pieces 31 (as illustrated in
In one embodiment, the improved attachment pieces incorporate a deformable margin around the edge of the attachment pieces. This deformable margin allows the anchor sheets to be placed with spacing to allow for atmospheric expansion. However, the deformable margin deforms during periods of expansion of the anchor sheets due to atmospheric changes to allow for expansion of the anchor sheets. In some embodiments, the deformable margin is resilient, and so will shrink and expand in a manner to accommodate the expansion and shrinkage of the anchor sheets. However this is not necessary to operate effectively so that a collapsible non-resilient margin could also be effective.
Extending outward from upper portion 132 of improved attachment piece 131 are a plurality of deformable protrusions 135. By “protrusions” is meant any part of the margin extending outwardly. Such protrusions may be in the form of fingers, fins, bumps, bulges or any structure extending from the margin of the attachment piece and could include any irregularity or pattern in the margin wherein one portion of the margin can deform. As may be seen in
The length of the extending plurality of protrusions 135 should be sufficient to accommodate the expected maximum expansion of the anchor sheets. In a preferred embodiment, where the anchor sheet is 0.125 inches thick at its widest point and is a 24 inch by 24 inch polypropylene anchor sheet, the margin should deform to allow for a minimum 1/16 of an inch (0.0625 inch) deformation. This expected expansion can be calculated using known coefficients and formulae. One such typical formula is the linear coefficient of expansion of a material times the length of that material (or half the length of the material for one side) times the change in temperature. We typically consider the maximum expansion over a range of approximately 70 degrees Fahrenheit. While the expansion can depend upon many factors, within the range of preferred thicknesses and in this use, the relevant factors are the horizontal dimensions of the anchor sheet, the material from which the anchor sheet is constructed and the range of temperature over which the material is used. 1/16 of an inch is preferred for a 24 inch by 24 inch homopolymer polypropylene anchor sheet which is 0.125 inches thick at its widest point. This will provide for sufficient expansion and contraction in most practical uses for homopolymer polypropylene and with this anchor sheet size.
In a preferred embodiment, where the anchor sheet is 0.125 inches thick and is a 24 inch by 24 inch square made from homopolymer polypropylene, notches 149 will have a maximum width (along a radius from the centre of the disk) of approximately 0.1 inches. In the same preferred embodiment, the undeformed bumps 141 may have a distance from the outer point of the bump to the nominal edge of the disk (or length B minus length C in
Another alternative embodiment of the improved attachment pieces incorporating a spacing structure is shown in
In a preferred embodiment, where the anchor sheet is 0.125 inches thick and is a 24 inch by 24 inch square of homopolymer polypropylene, the removable strip of material 153 extends 1/16 of an inch (0.0625 inches) from the side of the attachment piece. Note that, after removal of the removable strip, a surrounding circumference of space will be left which is sufficient to allow the minimum deformation of 1/16 of an inch (0.0625 inches) as discussed above.
While the improved attachment pieces incorporating a spacing structure discussed under
Turning to
The deformable or removable margin may also appear on anchor sheets, rather than the attachment pieces, in
It is possible to design the protrusions 242 so that protrusions on adjacent anchor sheets can interlock when the anchor sheets are installed.
In
In
A spacing structure may also be used on anchor sheets designed to overlap. Turning to
Turning to
It should be noted that the spacing to be created between adjacent anchor sheets and attachment pieces is a space between the relatively rigid parts of the attachment sheets and attachment pieces. In some embodiments, this space may be entirely filled by the deformable margin. For example, in
A second similar embodiment may be seen in
In a further alternative embodiment, a deformable margin of a type pictured in
It is noted that those skilled in the art will appreciate that various modifications of detail may be made from the embodiments described herein which would come within the spirit and scope of the invention as described in the following claims.
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