The invention relates to an installation tool for installing floor tiles, particularly floor tiles comprising a top layer and a bottom layer adhered together in an offset relationship such that a marginal end portion of a top surface of the bottom layer and a marginal end portion of a bottom surface of the top layer are exposed and wherein at least one of the marginal end portions has an adhesive. The invention further relates to a method of using an installation tool to install the floor tiles.
A groutable floor system is typically formed by adhering a plurality of floor tiles to a subfloor or an underlayment. The floor tiles are adhered to the subfloor or the underlayment such that a space is provided between ends of the adjacent floor tiles. Grout is then provided in the space between the ends of the adjacent floor tiles. Aligning the floor tiles so that the space between the ends of the adjacent floor tiles is straight and consistent is difficult and time consuming. It is therefore known to use an installation tool to assist with the alignment and spacing of the floor tiles. An example of such an installation tool is shown and described in U.S. Patent Application Publication No. 2002/0121027 A1.
The aforementioned installation tools, however, are designed to be used with floor tiles that are adhered directly to a subfloor or underlayment using a wet adhesive or thinset mortars. Because the adhesive or thinset mortar is wet when the floor tiles are installed, the floor tiles and/or the installation tools are capable of being shifted or slid until the desired positioning and spacing is achieved. These installation tools are therefore not suitable for use with floor tiles wherein the adhesive used to attach the floor tiles is an “instant bond” adhesive. An “instant bond” adhesive is an adhesive that has practically zero tolerance for misalignment. In other words, once the floor tile engages the “instant bond” adhesive, the floor tile cannot be shifted or slid into a new position. Thus, the “instant bond” adhesive prevents the floor tiles and/or the installation tools from being shifted or slid until the desired positioning and spacing is achieved. Such a floor tile would include, for example, a floor tile that comprises a top layer and a bottom layer adhered together in an offset relationship such that a marginal end portion of a top surface of the bottom layer and a marginal end portion of a bottom surface of the top layer are exposed and at least one of the marginal end portions has an “instant grab” adhesive for adhering to at least one of the marginal end portions of the adjacent floor tiles. An example of such a floor tile is shown and described in U.S. Patent Application Publication No. 2010/0247834 A1, which is hereby incorporated by reference in its entirety.
It is therefore desirable to develop an installation tool that is capable of quickly and easily aligning and positioning floor tiles in a groutable floor system, particularly a groutable floor system wherein the adhesive used to attach the floor tiles is an “instant grab” adhesive.
The invention relates to an installation tool for installing floor tiles comprising a base and an arm. The base and the arm each have opposing top and bottom surfaces and opposing sides. The sides of the base extend substantially perpendicular to the sides of the arm. At least one spacer is provided on at least one of the sides of the base and at least one spacer is provided on at least one of the sides of the arm. Each of the spacers has an alignment member extending substantially perpendicular to the top and bottom surfaces of the base and the arm. Each of the alignment members has a thickness equal to a desired spacing between adjacent floor tiles.
As shown in
As shown in
The side 20 of the arm 3 provided with the spacer attachment aperture 22 is additionally provided with a pair of base attachment members 24. In the illustrated embodiment, the base attachment members 24 are arranged proximate the end 21 of the arm opposite from the spacer attachment aperture 22. The base attachment members 24 extend away from the arm 3 and are each provided with a base receiving slot 25. The base receiving slot 25 extends substantially parallel to the top surface 18 and the bottom surface 19 of the arm 3. A base attachment aperture 26 extends through the base attachment members 24 from the top surface 18 to the bottom surface 19 of the arm 3 and communicates with the base receiving slot 25. Positioning members 27 are arranged substantially between the base attachment members 24. At least one positioning member 27 extends away from the arm 3 from the top surface 18, and at least one positioning member 27 extends away from the arm 3 from the bottom surface 19. In the illustrated embodiment, the positioning members 27 are offset from each other. Viewing cutouts 28 flank the base attachment members 24. The viewing cutouts 28 correspond to the shape and location of the viewing cutouts 12 of the base 2. The viewing cutouts 28 inward from the side 20 of the arm 3.
The arm 3 is attached to the base 2 by inserting the end 9 of the base 2 having the arm attachment apertures 10 between the positioning members 27 and into the base receiving slot 35 of the base attachment members 24 such that the arm attachment apertures 10 substantially align with the base attachment apertures 26. The attachment members 15 are then inserted through the arm attachment apertures 10 and into the base attachment apertures 26 to attach the arm 3 to the base 2. Because the arm 3 is reversible, the arm 3 can be attached to the base 2 such that the arm 3 extends from either of the sides 6 of the base 2 thereby accommodating a right-handed installer or a left-handed installer, as well as various installation configurations. When the arm 3 is attached to the base 2, the arm 3 extends substantially perpendicular to the base 3 and forms a substantially L-shape therewith, and the viewing cutouts 12 of the base 2 and the viewing cutouts 28 of the arm 3 communicate to create alignment windows 33 where the sides 6 of the arm 3 and the sides 20 of the base 2 intersect.
Spacers 29 are attached to the base 2 and the arm 3. The spacers 29 each comprise a body 32 and an alignment member 31. The body 32 is substantially planar and is provided with an attachment member receiving opening 30. The alignment member 31 extends substantially perpendicular to the body 32 and has a thickness substantially equal to a desired spacing 63 (
In the illustrated embodiment, the installation tool 1 including the base 2, the arm 3, the handle 14, and the spacers 29 and are all separately formed of an injection molded or machined plastic material. The plastic material may be, for example, a thermoplastic material, such as acrylonitrile butadiene styrene, acrylic, or polyolefin, or a fiber filled thermoplastic material, such as nylon, acrylic, or polycarbonate. It will be appreciated by those skilled in the art, however, that the entire installation tool 1 and/or select elements thereof may also be integrally formed in one piece and/or made from other materials, as long as the material is sufficiently rigid to avoid deformation during use of the installation tool 1. Other materials may include, for example, metal, hardwood, plywood, or combinations thereof.
A bottom surface 43 of the top layer 41 is laminated to a top surface 44 of the bottom layer 42 by an adhesive 45 such that opposing first ends 48 of the top layer 41 are offset in a direction of length L from opposing first ends 50 of the bottom layer 42 and opposing second ends 49 of the top layer 41 are offset in a direction of width W from opposing second ends 51 of the bottom layer 42. In the illustrated embodiment, the adhesive 45 is provided on substantially an entirety of the top surface 44 of the bottom layer 42. Thus, due to the offset of the top layer 41 relative to the bottom layer 42, a substantially L-shaped marginal end portion of the top surface 44 of the bottom layer 42 remains exposed to form an adhesive surface 46, and a substantially L-shaped marginal end portion of the bottom surface 43 of the top layer 41 remains exposed to form an attachment surface 47. It will be appreciated by those skilled in the art that the adhesive 45 may also be provided on the marginal end portion of the bottom surface 43 of the top layer 41 instead of or in addition to the top surface 44 of the bottom layer 42 depending on the type and characteristics of the adhesive 45 used to achieve optimum adhesion and bond strength when adhering the adjacent floor panels 40. The adhesive 45 may be, for example, any suitable adhesive, such as a hot melt adhesive, a pressure sensitive adhesive, or a structural and/or reactive adhesive. In the illustrated embodiment, the adhesive 45 is an “instant bond” adhesive.
It will be appreciated by those skilled in the art that the floor tiles 40 are not limited to the structure shown and described herein. For example, the floor tiles 40 may be any known groutable floor tiles, including floor tiles that do not include a top layer offset from a bottom layer. Additionally, the floor tiles 40 are not limited to floor tiles made from a flexible sheet material. Other materials are possible within the scope and spirit of the invention, such as ceramic, natural stone, or the like. Further, although the floor tiles 40 shown and described herein have a substantially square geometrical configuration, the floor tiles 40 are not limited thereto. For example, the floor tiles 40 may alternatively have a substantially rectangular geometrical configuration.
As shown in
As shown in
As shown in
The installation tool 1 therefore enables the quick and easy installation of the groutable floating floor system 61 even though the adhesive used to attach the floor tiles 40 is an “instant grab” adhesive. Additionally, because the height or thickness of the base 2 and the arm 3 is about 0.5-0.75 inches, the spacers 28 are positioned a reasonable height above the top surfaces 4, 18 of the base 2 and the arm 3. Thus, the floor tiles 40 are easy to align with the alignment members 31, and undesired contact with the “instant grab” adhesive is more easily avoided. Further, because the arm 3 is removable from the base 2, the installation tool 1 can also be used when installing the floor tiles 40 adjacent a wall or a corner of a room.
The foregoing illustrates some of the possibilities for practicing the invention. Many other embodiments are possible within the scope and spirit of the invention. For example, it will be appreciated by those skilled in the art that although the installation tool 1 is shown and described herein as being used to install a groutable floating floor system, it will be appreciated by those skilled in the art that the installation tool 1 could also be used to install a groutable floor system that is adhered directly to a sub-floor or underlayment. Additionally, the installation tool could have other applications, such as being used to install wall tiles, furniture tiles, deck boards, or other structures requiring a desired spacing there between. It is, therefore, intended that the foregoing description be regarded as illustrative rather than limiting, and that the scope of the invention is given by the appended claims together with their full range of equivalents.