TILE LEVELLING DEVICE
A tile levelling and spacing device (12) including: a base plate (20) having an upper surface (29) and a base surface; a central hub (22) which includes a stem aperture, each centrally located in the base plate (20), the stem aperture including internal threading; and at least one spacer body (24) which extend outwardly from the upper surface (20) of the base plate (20), wherein the at least one spacer body (24) includes: at least one first engagement portion (25) which is configured to abut against a side of a first tile of a pair of adjacent tiles (16) and be spaced away from the side of the second tile of that pair of tiles (16); and at least one second engagement portion (25) which is configured to abut against a side of the second tile of the pair of adjacent tiles (16) and be spaced away from the side of the first tile of that pair of tiles (16).
The present invention generally relates to a tile levelling and spacing device. The invention is particularly applicable for spacing and levelling floor or wall tiles and it will be convenient to hereinafter disclose the invention in relation to that exemplary application. However, it is to be appreciated that the invention is not limited to that application and could be used for any tiling or paving application that requires one or more tiling or paving bodies used in an installation to be properly spaced apart from other tiling or paving bodies and level with other tiling or paving bodies.
BACKGROUND OF THE INVENTIONThe following discussion of the background to the invention is intended to facilitate an understanding of the invention. However, it should be appreciated that the discussion is not an acknowledgement or admission that any of the material referred to was published, known or part of the common general knowledge as at the priority date of the application.
The installation of tiles on a wall or floor surface requires experience and skill. Aesthetics require that each tile is properly spaced apart, aligned and level with adjoining tiles. However, positioning and levelling a large number of tiles can be difficult. Skewed tiles and raised edges can result if a tile is not properly installed. Additionally, floor and wall tiles are adhered to a surface using an adhesive that has a curing time of about twenty four hours. Tiles may move during that curing period if not properly held in place.
A number of tile spacing and levelling devices are available to assist a tiler properly space and level tiles during installation.
One prior tile spacing device is taught in U.S. Pat. No. 7,257,926 B1. This patent discloses a tile levelling and spacing device which includes a circular base plate having two rigid spacing arms. The spacing arms are orientated in normal relation to one another forming an “X”-shape on the base plate. A post having ratchet teeth is formed integrally with the base plate at the center of the base plate. A disc is also provided which receives the post. The disc includes a pawl which prevents displacement of the disc away from the base plate. In use, preselected corners of four tiles are positioned in overlying relation to the base plate and abut the spacer arms. The spacing arms space the tiles apart from one another a selected distance. The disc is positioned in overlying relation to the four corners of the tiles so that it overlies and holds the tiles level between the base plate and the disc. The tiles are set in an adhesive. After curing of the adhesive, an installer twists the disc in a plane parallel to the tiles until the post breaks off.
Another prior tile spacing device is taught in British Patent Publication GB2460429A. This patent publication teaches a tile clamping and levelling device having a square base plate, a square top plate and a clamping means, such as a ratchet mechanism or twist-lock key, which clamps the base plate and top plate together. The base plate includes two rigid spacing arms formed on a top surface of the base plate. The spacing arms are orientated in normal relation to one another to form an “X”-shape on the base plate. Again, in use, top plate is positioned in overlying relation to four corners of a set of adjacent tiles so that it overlies and holds the tiles level between the base plate and the top plate.
However, building regulation for some structures, such as high rise buildings, can require tile levelling and spacing devices to be removed from between tiles prior to filler material being applied between adjoining or adjacent tiles. The rationale for removal is that spacers can create a mechanical connection between adjacent tiles. This connection can transfer forces between the tiles, thereby increasing the probability of damage from cracking or the like. Each of the above described prior tile levelling and spacing devices would not meet this requirement because the rigid spacing arms of these devices bridges the space between adjacent tiles, and thereby create the undesired mechanical connection between adjacent tiles.
It would therefore be desirable to provide an alternate tile levelling and spacing device which reduces and/or substantially overcomes the foregoing problem.
SUMMARY OF THE INVENTIONIn a first aspect, the present invention provides a tile levelling and spacing device. The device includes a base plate which has an upper surface and a base surface. The device also includes a central hub which includes a stem aperture, each centrally located in the base plate. The stem aperture has internal threading. In addition, the device includes at least one spacer body that extends outwardly from the upper surface of the base plate. The spacer body or spacer bodies include at least one first engagement portion which is configured to abut against a side of a first tile of a pair of adjacent tiles and be spaced away from the side of the second tile of that pair of tiles; and at least one second engagement portion which is configured to abut against a side of the second tile of the pair of adjacent tiles and be spaced away from the side of the first tile of that pair of tiles.
The spacer bodies of the present invention provide a combined configuration which cooperating to extend the distance between and, in use, space apart a pair of adjacent tiles. However, the engagement portions of the spacer bodies are not aligned. Any force from a pair of tiles is therefore not linearly transferred through the spacer body or bodies to the other tile.
In a first embodiment of the present invention, the spacer body comprises at least two bodies including at least one first spacer body and at least one second spacer body. The first spacer body includes at least one first engagement portion. The second spacer body includes at least one second engagement portion. In this embodiment, the spacer bodies are designed to space adjacent tiles apart from one another a selected distance without bridging the gap between those tiles. This is achieved by configuring the spacer bodies to abut the side of only one tile of a pair of adjacent tiles, and be spaced apart or away from the adjacent tile. It should be appreciated where there are three or more adjacent tiles, the tile levelling and spacing device may include additional spacer bodies. The spacer bodies would provide at least one pair of spacer bodies between each adjacent pair of tiles of that group of tiles which abut the side of one of that pair of tiles and be spaced away from the side of the adjacent tile of that pair of tiles. This arrangement of spacer bodies does not form a mechanical connection between adjacent tiles.
In an alternate embodiment of the present invention, at least one of the spacer bodies, and preferably most or all of the spacer bodies includes both a first engagement portion and a second engagement portion. Each of the spacer bodies are therefore configured to extend the distance between and, in use, space apart a pair of adjacent tiles. The first spacer portion and the second spacer portion of the spacer body or bodies are preferably laterally spaced apart relative to a longitudinal axis of the base plate about which the central hub and each spacer body extends. Each of the spacer bodies is preferably flexible allowing the spacer bodies to flex when a load is applied by an abutting tile. Thus, while a mechanical connection is made between the two adjacent tiles, the flexibility of each of the spacer body reduces or limits the transfer of force between these adjacent tiles.
In this alternate embodiment, the spacer bodies preferably comprise a plurality of spaced apart tabs, each tab having opposite ends, each end extend the distance between and, in use, configured to abut against a respective side of a pair of adjacent tiles. Each central hub and each spacer body preferably extends laterally along a longitudinal axis of the base plate. Each tab preferably has a longitudinal side extending between each end. In order to add further flexibility to the configuration, the longitudinal side each tab is preferably positioned at an angle relative to the longitudinal axis of the base plate. The angle can be between 20 and 70 degrees, preferably between 30 and 50 degrees, and is most preferably about 45 degrees.
The spacer bodies of each embodiment extend outwardly, preferably generally perpendicularly outwardly, from the upper surface of the base plate. Each spacer body is preferably flexible and can be configured to bend and/or flex relative to the base plate. In some cases, each spacer body is configured to transversely bend and/or flex relative to a longitudinal or transverse axis that the respective spacer body is aligned. This flexibility allows the spacer bodies to flex when a load is applied by an abutting tile. Loaded parts of the tile levelling and spacing device, such as the spacer bodies, can therefore flex or otherwise move with that applied load. This reduces damage, such as cracks or the like, that may otherwise occur if the tile levelling and spacing device was constructed from a more rigid material.
In some embodiments, each spacer body is aligned parallel with at least one of a longitudinal or a transverse axis of the base plate. The spacer body may also be axially spaced apart from an adjacent spacer body about that axis by an axial separation distance. Additionally, each spacer body may also be radially spaced apart from an adjacent spacer body about that axis by a particular spacer spacing.
The spacer bodies can have any suitable configuration. In preferred forms, the spacer bodies may comprise one or more of: tabs, flanges, rods, pimples, spigots, poles, fingers, ribs, flaps, fins, bars, panels, blocks, balls or teeth. In one embodiment, the spacer bodies comprise a plurality of tabs spaced apart lengthwise relative to a longitudinal or transverse axis of the base plate. In another embodiment, the spacer bodies comprise a plurality of elongate bodies, preferably rods, aligned parallel with a longitudinal or a transverse axis of the base plate and axially spaced apart relative to the respective longitudinal or transverse axis of the base plate.
The dimensions of the spacer bodies can be optimised to minimise mechanical connection between two adjacent tiles. For example, the thickness of the spacer bodies can be selected to be less than ⅔ the tile spacing between adjacent tiles. More preferably, the thickness of the spacer bodies can be selected to be less than less than ½ the tile spacing between adjacent tiles. Similarly, the height of the spacer bodies relative to the upper surface of the base plate can be selected to be less than the thickness of tiles the tile levelling and spacing device has been selected to be used to space and level. Preferably, the height of the spacer bodies relative to the upper surface of the base plate would be less than ⅔ the thickness of those tiles. More preferably, the height of the spacer bodies relative to the upper surface of the base plate would be less than ½ the thickness of those tiles.
The tile levelling and spacing device can be configured to fit between any number of adjacent tiles:
In some applications, the device is configured to fit between the parallel sides of two adjacent tiles. Here, the device would include at least two pairs of spacer bodies, each spacer body being located on opposite sides of the central hub. In some cases, those pairs of spacer bodies located on opposite sides of the central hub would be equidistantly oriented at 180 degrees from each other about the central hub.
In other applications, the device is configured to fit in the corner between four adjacent tiles. Here, the device would include at least four pairs of spacer bodies, and at least four of those pairs of spacer bodies being equidistantly oriented at 90 degrees from each other about the central hub.
In yet other applications, the device is configured to fit in the corner between three adjacent tiles. Here, the device would include at least three pairs of spacer bodies oriented in a “T”-shaped configuration about the central hub.
In each of the these configurations, each pair of spacer bodies located between respective pairs of adjacent tiles includes at least one first spacer body and at least one second spacer body. The first spacer body is configured to abut against a side of a first tile of a pair of adjacent tiles and be spaced away from the side of the second tile of that pair of tiles. The second spacer body is configured to abut against a side of the second tile of the pair of adjacent tiles and be spaced away from the side of the first tile of that pair of tiles.
The central hub can have any configuration in which the stem aperture can be located. The central hub is preferably configured to bend and/or flex relative to the base plate. Furthermore, the width of the central hub about the lengthwise axis of the base plate is preferably less than the spacing between adjacent tiles. These dimensions ensure the central hub does not abut the sides of the tiles which in use abut the spacer bodies and thereby bridge the gap between those tiles.
The base plate can have any suitable configuration. In most embodiments, the base plate is a planar sheet having a selected shape. The plate can have a circular or polygonal shape, for example a generally square shape. The base plate preferably includes at least one opening, cut-out or aperture. These openings, cut-outs or apertures are configured to allow adhesive to pass through when the tile levelling and spacing device is in use. The adhesive can therefore directly join the tile to the flooring or wall through that opening, cut-out or aperture.
The tile levelling and spacing device preferably comprises a flexible and/or resilient material. The tile levelling and spacing device can be manufactured from a variety of material including metals, such as for example a metal such as iron or alloys thereof, aluminium, paper based products such as cardboard, wood. However, the preferred material of construction is a plastic. Suitable plastics include (but are not limited to) polyethylene terephthalate (PET), polyethylene, Polyvinyl chloride (PVC), High Impact Polystyrene (HIPS), virgin or recycled polypropylene, nylons, polyesters, styrene based plastics, Polyvinylidene chloride (PVDC), polycarbonates or similar.
The levelling function of the tile levelling and spacing device is provided in cooperation with a clamping device. The clamping device preferably includes a handle configured for manual manipulation by a user, a clamping surface attached to the handle configured to abut a top surface of a tile, and a threaded tubular stem which perpendicularly extends from the clamping surface and is configured to be threadably received within the stem aperture of the central hub. A tile can therefore be clamped between the upper surface of the base plate of the tile levelling and spacing device and the clamping surface of the clamping device.
According to a second aspect of the present invention, there is provided a method of installing a tile levelling and spacing device for spacing and levelling a plurality of tiles, comprising the following steps:
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- providing the tile levelling and spacing device according to the first aspect of the present invention;
- applying an adhesive onto a top surface of a floor or wall to create an adhesive layer;
- applying a first tile onto the adhesive layer; inserting the tile levelling and spacing device on the adhesive layer and under at least one side of a first tile;
- applying additional tiles and additional tile levelling and spacing device s onto the adhesive layer so that a tile levelling and spacing device is located between and under at least one side of all applied tiles;
- adjusting a spacing gap width between adjacent tiles by aligning the sides and/or corners of the tiles to abut the spacer body of a respective adjacent tile levelling and spacing device;
- inserting a clamping device to each tile levelling and spacing device , the clamping device having handle and a threaded tubular which perpendicularly extends from the handle, the stem being threadably received within the stem aperture;
- clamping each tile between the clamping device by means of appropriate directional turning of clamping device for every tile levelling and spacing device;
- pressing all tiles firmly into the adhesive layer;
- allowing the adhesive layer to dry;
- removing clamping device from each tile levelling and spacing device by means of appropriate directional turning of clamping device until detached from the stem aperture.
The present invention will now be described with reference to the figures of the accompanying drawings, which illustrate particular preferred embodiments of the present invention, wherein:
Referring firstly to
The illustrated tile levelling and spacing device 12 comprises a generally square moulded body made of a plastic material fabricated in a plastic injection moulding process or similar. The device 12 includes a rectangular base plate 20, a square central connection hub 22, and four spacing tabs 24. The base plate 20, central connection hub 22 and spacing tabs are all integrally moulded as part of the device 12 during a plastic moulding process. It should be appreciated that the dimensions of the features of the device 12 can vary to suit a particular tile size and configuration without departing from the scope of the present invention.
The base plate 20 is a generally rectangular plastic plate which includes four spaced apart openings 26 and two side cut-outs 28 configured to allow adhesive to pass through when the tile levelling and spacing device 12 is in use. It should be appreciated that none or any number of openings 26 and cut-outs 28 could equally be used without departing from the spirit and scope of the present invention.
The central connection hub 22 comprises a cubic body centrally located on the upper surface 29 of the base plate 20. The central connection hub 22 includes a threaded stem aperture 30 which extends through the central hub 22 and base plate 30. The width of the central connection hub 22 about axis X-X of the base plate 20 is less than the tile spacing D (
Four spacer tabs 24 are also provided which extend generally perpendicularly outwardly from the upper surface 29 of the base plate 20. Each spacer tab 24 comprises a thin rectangular tab having an engagement surface 25 which is configured to abut against a side of one of the tiles 16 of an adjacent pair of tiles 16. The spacer tab 24 is also spaced away from the other tile 16 of that pair of tiles 16 (
The height of the spacer tabs 24 is generally less than the thickness of tiles 16 the tile levelling and spacing device 12 has been selected to be used to space and level. This ensures each spacer tab 24 is covered by filler (such as grout) once that the space 27 (
The plastic material the tile levelling and spacing device 12 is constructed from is preferably selected to ensure each spacer tab 24 is flexible, and can transversely bend and/or flex relative to the transverse axis X-X. Flexibility of the spacer tabs 24 allow the spacer tabs 24 to flex when a load is applied by an abutting tile 16. The thickness of the spacer tabs 24 also assists in this flexibility. In the illustrated embodiment, the thickness of the spacer tabs 24 is about 2/5 the tile spacing D between adjacent tiles 16.
It should be appreciated that other forms of spacing bodies can also be used to achieve the same function as the spacer tabs 24 shown in
For example,
The tile levelling and spacing device 12 also includes a connection spindle 14. The connection spindle 14 shown in
The tile levelling and spacing device 12 can be configured to fit between any number of adjacent tiles 16. The devices 20 and 20A shown in
In use, the two sides of adjacent tiles are pushed to abut the respective sides of each angled spacer tab 324. A clamping spindle 14, such as shown in
In use, the two sides of adjacent tiles are pushed to abut the respective engagement surface 424 of each angled spacer tab 424. A clamping spindle 14, such as shown in
It is to be appreciated that all the embodiments of the present system 10, 10A, and associated tile levelling and spacing devices, 12, 112, 212, 312 and 412 may be produced in a variety of different sizes and configurations depending on the type of flooring material used and the desired spacing gap 120 without departing from the scope of the present invention.
The illustrated levelling and spacing system 10 is used to level and space adjacent tiles 16. The following steps are described in relation to the system 10 illustrated and described in
In order to use the device 12 shown
A clamping spindle 14 is then attached to each first tile levelling and spacing device 12 by inserting the tubular stem 44 of the clamping spindle 14 into the stem aperture 30 of the tile levelling and spacing device 12. It should be appreciated that this insertion step could be undertaken prior to insertion of the tile levelling and spacing device 12 under the tiles 16, or once the tile levelling and spacing device 12 is in situ under the tiles 16. Each tile 16 is then clamped between the spindle 24 and tile levelling and spacing device 12 by rotating the clamping spindle 14 relative to the tile levelling and spacing device 12 to threadably tighten the clamping surface 43 and the upper surface 29 around that tile 16. All the tiles 16 are then pressed firmly into the adhesive layer, and the adhesive layer is allowed to dry. This can take around 24 hours.
Once the adhesive is dry, the clamping spindle 14 is then from each tile levelling and spacing device 12 by means of appropriate directional turning of clamping spindle 14 until the tubular stem 44 is detached from the stem aperture 30. A suitable filler material, such as grout, can be then inserted in the space 27 between the tiles 16.
Those skilled in the art will appreciate that the invention described herein is susceptible to variations and modifications other than those specifically described. It is understood that the invention includes all such variations and modifications which fall within the spirit and scope of the present invention.
Where the terms “comprise”, “comprises”, “comprised” or “comprising” are used in this specification (including the claims) they are to be interpreted as specifying the presence of the stated features, integers, steps or components, but not precluding the presence of one or more other feature, integer, step, component or group thereof.
Claims
1. A tile levelling and spacing device including:
- a base plate having an upper surface and a base surface;
- a central hub which includes a stem aperture, each centrally located in the base plate, the stem aperture including internal threading; and
- at least one spacer body that extends outwardly from the upper surface of the base plate.
2-25. (canceled)
Type: Application
Filed: Sep 5, 2012
Publication Date: Nov 6, 2014
Inventors: Anthony PSaila (Airport West), Andy Nicholas Psaila (Airport West)
Application Number: 14/342,932
International Classification: E04F 21/00 (20060101); E04F 21/22 (20060101);