This invention relates, in general, to tile installation and, in particular to a device for leveling and aligning tiles and properly spacing tiles during the installation thereof.
Tile has become a popular decorative and functional article for use in floors, walls, countertops, and the like. Both professional tile installers and do-it-yourselfers spend a great deal of time aligning and leveling tiles as they are being placed on a substrate's surface. Proper alignment and leveling of each tile is important for a number of reasons. Improper installation can cause the need for tiles to be replaced in order to prevent a spacing error from propagating across the substrate, aesthetic reasons, and in some instances, safety concerns. A need exists for a device for leveling and aligning tiles and properly spacing tiles.
It would be advantageous to achieve a device for leveling and aligning tiles and properly spacing tiles. It would also be desirable to enable a mechanical-based solution that furnishes an inexpensive tool that assists professional tile installers and do-it-yourselfers. To better address one or more of these concerns, in one aspect of the invention, a device for leveling and aligning tiles and a method for leveling and aligning tiles are disclosed. In one embodiment of the tile leveling device, a body defines a viewing opening. A base is orthogonally coupled to the body with a base to body coupling including a frangible breakaway section. The base and body are integral prior to frangible separation and the frangible breakaway section, upon breaking, frangibly separates the body from the base. Respective arms are moveably connected to the body opposite the base. Each of the arms may move from an open position to a closed position where the arm releasably mates against one or more tiles. These and other aspects of the invention will be apparent from and elucidated with reference to the embodiments described hereinafter.
For a more complete understanding of the features and advantages of the present invention, reference is now made to the detailed description of the invention along with the accompanying figures in which corresponding numerals in the different figures refer to corresponding parts and in which:
While the making and using of various embodiments of the present invention are discussed in detail below, it should be appreciated that the present invention provides many applicable inventive concepts which can be embodied in a wide variety of specific contexts. The specific embodiments discussed herein are merely illustrative of specific ways to make and use the invention, and do not delimit the scope of the present invention.
Referring initially to
In one embodiment, a spacing pad (not shown) may be integral with the body 12 on the front F of the body 12 and may vary in thickness depending on the application. The spacing pad contributes to furnishing a combination of vertical leveling and joint spacing within a single product. Moreover, the spacing pad, which may be more generally a spacer, is configured to position the tiles a predetermined distance apart depending on the application. Similarly, a spacing pad (not shown) may be integral with the body 12 on the rear R of the body 12 and may vary in thickness depending on the application.
In one embodiment, grout joint spacers 34, 36 may be integral with the body 12 proximate the base 16 on the front F of the body 12 and may vary in thickness depending on the application. The grout joint spacers 34, 36 contribute to desired spacing within the grout joint and easy release therefrom. In one implementation, the grout joint spacers 34, 36 may be triangular in shape with the point of the triangle toward the base 16. The number of grout joint spacers 34, 36 may also vary. Similarly, grout joint spacers 38, 40 may be integral with the body 12 proximate the base 16 on the rear R of the body 12.
The base 16 may have any shape, including circular shapes, rectangular shapes, triangular shapes, or typographical shapes, like the letter “H” or “I.” In one embodiment, the base 16 is an I-shaped base. Spaced and parallel strip members 50, 52 provide four points of contact 54, 56, 58, 60 for lift of tiles, while still establishing space for maximum mortar penetration between the spaced and parallel strip members 50, 52. As shown, the spaced and parallel strip members 50, 52 are substantially flat.
It should be appreciated, however, that the spaced and parallel strip members 50, 52 may have an arcuate form in an embodiment wherein the spaced and parallel strip members 50, 52 have a curve under the four points of contact 54, 56, 58, 60. That is, the spaced and parallel strip members 50, 52 may define convex curvatures 62, 64 that are flexible and compressible for tile installation during a leveling and alignment of a tile. The convex curvatures 62, 64 in this embodiment may contribute to tiles of varying thicknesses may be leveled and aligned. Continuing with the discussion of this embodiment, in the corner application, four tiles having four varying thicknesses may be leveled and aligned by way of the flexibility and compressibility of the convex curvatures 62, 64 of the spaced and parallel strip members 50, 52.
It should be understood that in alternative embodiments, the spaced and parallel strip members 50, 52 may be substantially flat, include arcuate portions on the top of the spaced and parallel strips members 50, 52, or include arcuate portions on the top of the spaced and parallel strip members 50, 52 in addition to the aforementioned convex curvatures 62, 64. In any of these alternative embodiments, in corner applications, four tiles having varying thicknesses may also be leveled and aligned by way of the flexibility and compressibility existing in the spaced and parallel strip members 50, 52, in addition to any benefits offered by arcuate portions or features of the alternate embodiments.
Channels 70, 72 may be located in the base 16 and, in one embodiment, the channels 70, 72 are perpendicular to the spaced and parallel strip members 50, 52. An arm 80 is pivotally connected to the body 12 opposite the base 16 by a central connection member 120. In one implementation, the arm 80 moves, and may pivot, from an open position to a closed position, as depicted by arrow 82 in
An arm 100 is pivotally connected to the body 12 opposite the base 16 by the central connection member 120, which in some embodiments may be part of the body 12. In one implementation, the arm 100 moves, by way of a hinge connection or pivot, for example, from an open position to a closed position, as depicted by arrow 102, where the arm 100 releasably mates against the tile T1 (
Referring now to
Additionally, in particular embodiments, the tile leveling device 10 may include a tile leveling position with the arms 80, 100 extending immediately downwardly from the body 12 to define a concave convex form from the arm 80 to the central connection member 120 to the arm 100 (please see
Referring now to
As shown, the tile T1 is over the base 16 to the front F of the body 12. As mentioned, the tile T1 has a lower surface opposite an upper surface. The tile T1 has contact with mortar M at the notch 22, wherein the lower surface faces the base 16 and the upper surface is farther from the base 16 than the lower surface. Similarly, the tile T2 is over the base 16 at the rear R of the body 12. The tile T2 has similar surfaces to the tile T1 with mortar M at the notch 24. The frangible breakaway section 20 may be located between the lower surface and the upper surface of the tile T1 and similarly positioned with respect to the tile T2.
In operation, an individual may place the tile leveling device 10 on the subsurface S and then position the mortar M and desired number of tiles. Each of the arms 80, 100 may be squeezed toward the body 12 such that the arms 80, 100 releasably engage against the tiles. In this configuration, the proper tile spacing may be maintained. Accordingly, a single tile leveling device 10 may be utilized to install, align, and level between two, three, and four tiles. More particularly, using one leveling device for a corner improves efficiency and minimizes the number of leveling devices required to complete a job.
Referring now to
In one embodiment, grout joint spacers 166 may be integral with the body 152 proximate the base 156 on the front F of the body 152 and may vary in thickness depending on the application. The grout joint spacers 166 contribute to desired spacing within the grout joint and easy release therefrom. Similarly, grout joint spacers 168 may be integral with the body 152 proximate the base 156 on the rear R of the body 152. The base 156 may have any shape, including circular shapes, rectangular shapes, triangular shapes, or typographical shapes, like the letter “H” or “I.” In one embodiment, the base 156 is an I-shaped base.
An arm 170 is pivotally connected to the body 152 by a central connection member 220 opposite the base 156. In one implementation, the arm 170 moves by pivoting from an open position to a closed position, as depicted by arrow 172, where the arm 170 releasably mates against a tile T1 by way of tension and compression forces. In the illustrated embodiment, a lateral member 174 extends laterally from the body 152. The lateral member 174 may be joined to a generally L-shaped movable member 176 at a hinge point 178, which may provide a controlled point of bend or a region of enhanced flexibility, for example. The L-shaped movable member 176 includes a lengthwise stem 179 having a terminal member 180 projecting therefrom. A downward facing tab 182 is secured to the terminal member 180. The downward facing tab 182 may releasably mate with a grout line G between two tiles. A surface treatment 194 is applied to the lengthwise stem 179 to improve grip in one embodiment.
An arm 200 is pivotally connected to the body 152 by the central connection member 220 opposite the base 156 and pivots between an open position and a closed position, as shown by arrow 202. In the illustrated embodiment, a lateral member 204 extends laterally from the body 152 and may be joined to a generally L-shaped movable member 206 at a hinge point 208, which may provide a controlled point of bend. The L-shaped movable member 206 includes a lengthwise stem 209 having a terminal member 210 projecting therefrom. A downward facing tab 212 is secured to the terminal member 210. The downward facing tab 212 may releasably mate with a grout line G between two tiles. A surface treatment 214 is applied to the lengthwise stem 209 to improve grip in one embodiment. As mentioned, the central connection member 220 couples the arm 170 to the arm 200. As best seen in
Referring now to
In one embodiment, grout joint spacers 266, 268 may be integral with the body 252 proximate the base 256 on the front F of the body 252 and may vary in thickness depending on the application. The grout joint spacers 266, 268 contribute to desired spacing within the grout joint and easy release therefrom. Similarly, grout joint spacers 267, 269 may be integral with the body 252 proximate the base 256 on the rear R of the body 252. The base 256 may have any shape, including circular shapes, rectangular shapes, triangular shapes, or typographical shapes, like the letter “H” or “I.” In one embodiment, the base 256 is an I-shaped base.
An arm 270 is moveably connected, by a hinge, pivot connection, living hinge or otherwise, for example, to the body 252 by a central connection member 320 opposite the base 256. In one implementation, the arm 270 pivots from an open position to a closed position, as depicted by arrow 272, where the arm 270 releasably mates against a tile T1. In the illustrated embodiment, the arm 270 may have various flexure points, such as a flexure bearing member 274 and a flexure bearing member 276. Each of the flexure bearing members 274, 276 may provide a controlled point of bend or a region of enhanced flexibility, for example. It should be appreciated that the arm 270 may have one or more regions of enhanced flexibility such as region 278. That is, the arm 270 may be a flexible member pivoting in a flexure manner. The arm 270 may include a lengthwise stem 279 having a terminal member 280 projecting therefrom. A tab 282 is secured to the terminal member 280, such that the tab 282 extends from a flush end 283 of the arm 270 with the tab 282 having a smaller width than the flush end 283. The terminal member 280 may have a width W1 with the tab 282 having a width W2, with the width W2 being less than the width W1. The tab 282 may releasably mate, such as with a friction fit created by downward pressure and the aforementioned compression Fc, against one or more tiles, or with a grout line G between two tiles. A surface treatment 294 is applied to the lengthwise stem 279 to improve grip in one embodiment.
An arm 300 is pivotally connected, by a living hinge or otherwise, to the body 252 by the central connection member 320 opposite the base 256 and pivots between an open position and a closed position, as shown by arrow 302. In the illustrated embodiment, the arm 300 may have various flexure points, such as a flexure bearing member 304 and a flexure bearing member 306. Each of the flexure bearing members 304, 306 may provide a controlled point of bend or a region of enhanced flexibility, for example. That is, the arm 300 may be a flexible member pivoting in a flexure manner. It should be appreciated that the arm 300 may have one or more regions of enhanced flexibility such as region 308. The arm 300 may include a lengthwise stem 309 having a terminal member 310 projecting therefrom. A tab 312 is secured to the terminal member 310 and, by extension, secured to the arm 300, such that the tab 312 extends from a flush end 313 of the arm 300 with the tab 312 having a smaller width than the flush end 313. The terminal member 310 may have a width W3 with the tab 312 having a width W4, with the width W4 being less than the width W3. The tab 312 may releasably mate, such as with a friction fit, against one or more tiles, or with a grout line G between two tiles. A surface treatment 314 is applied to the lengthwise stem 309 to improve grip in one embodiment. As mentioned, the central connection member 320 couples the arm 270 to the arm 300. In one implementation, the central connection member 320 includes a non-linear form 322. Further, as shown, the arms 270, 300 may provide a flat wing design with offset wing hinges that have controlled bend points to start the turn downward.
Referring now to
In some embodiments, the portion of the central connection member 320 and the arms 270, 300 which extend upwardly are flexible to provide a controlled bend, which may be convex or concave. The viewing opening 254 provides a window to see the other side of the tile leveling device 250 to assure proper alignment. The regions 278, 308 provide hinge points where the respective arms 270, 300 may bend and extend downward to the tile T5. At areas proximate the terminal member 280, 310 may have enhanced flexibility to provide greater ease of use. As mentioned, the tabs 282, 312 may be spacers that stabilize and prevent slipping of the arms 270, 300.
The order of execution or performance of the methods and techniques illustrated and described herein is not essential, unless otherwise specified. That is, elements of the methods and techniques may be performed in any order, unless otherwise specified, and that the methods may include more or less elements than those disclosed herein. For example, it is contemplated that executing or performing a particular element before, contemporaneously with, or after another element are all possible sequences of execution.
While this invention has been described with reference to illustrative embodiments, this description is not intended to be construed in a limiting sense. Various modifications and combinations of the illustrative embodiments as well as other embodiments of the invention, will be apparent to persons skilled in the art upon reference to the description. It is, therefore, intended that the appended claims encompass any such modifications or embodiments.
This application is a continuation of U.S. patent application Ser. No. 17/086,681 entitled “Device for Leveling and Aligning Tiles and Method for Leveling and Aligning Tiles” filed on Nov. 2, 2020, in the names of Clinton D. Bunch et al, and will issue on Aug. 2, 2022 as U.S. Pat. No. 11,401,721; which is a continuation of U.S. patent application Ser. No. 16/853,292 entitled, “Device for Leveling and Aligning Tiles and Method for Leveling and Aligning Tiles” filed on Apr. 20, 2020, in the names of Clinton D. Bunch et al., now U.S. Pat. No. 10,822,813 and issued on Nov. 3, 2020; which claims priority from U.S. Patent Application Ser. No. 62/836,927 entitled “Device for Leveling and Aligning Tiles and Method for Leveling and Aligning Tiles” filed on Apr. 22, 2019, in the names of Clinton D. Bunch et al.; both of which are hereby incorporated by reference, in entirety, for all purposes.
Number | Date | Country | |
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62836927 | Apr 2019 | US |
Number | Date | Country | |
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Parent | 17086681 | Nov 2020 | US |
Child | 17814309 | US | |
Parent | 16853292 | Apr 2020 | US |
Child | 17086681 | US |