Patent Application
20230016172
This application claims priority to The Netherlands Patent Application No. 2028782 filed Jul. 19, 2021, the disclosure of which is hereby incorporated by reference in its entirety.
The subject disclosure relates to floor system technology and more particularly to underlayment tiles for a modular surface covering system and methods of laying a modular surface covering system using underlayment tiles.
Modular floor systems having tiles with an interlocking structure are known in the prior art. For example, WO2013/117653A2 and WO2020/254192A discloses a floor tile comprising a base substrate and a laminate layer. The base substrate comprises a top layer with a laminate receiver on a top surface thereof and a bottom layer with connecting means for engaging with connection means of a base substrate of a further tile to form an interconnected flooring system. The top layer of the base substrate extends over connection means on at least one side of the base substrate. The laminate layer is bonded to the base substrate. Edges of the laminate receiver of two adjacent floor tiles provide a grout effect for the tiles when connected.
WO2010/144631 discloses a tray substrate having a tray substrate surface with vertical tray edges. The tray edges protrude upward and extend around a perimeter of the tray substrate surface. The tray surface receives a flooring component.
U.S. Pat. No. 7,610,731B1 discloses a floor structure unit comprising: a tray, a flooring material, a rubber grommet, and a rubber matrix. The tray includes an upper and lower horizontal surface, at least one retaining wall, a first and a second set of contrapositive interlocking members. The flooring material is disposed on the tray upper horizontal surface such that the first set of interlocking members is substantially flush with the flooring material and the second set of interlocking members extends beyond the flooring material. The rubber matrix is disposed in the tray lower horizontal surface, and the rubber grommet is disposed about the perimeter of the at least one retaining wall. The rubber grommet and the rubber matrix are a unitary piece. The tray, the rubber matrix, the flooring material and the rubber grommet 24 of the floor structure unit 10 are attached using an adhesive or glue.
NL1013699C2 discloses an underfloor comprising an insulating layer with a mesh for setting or laying tiles. The mesh lands form a regular or irregular pattern of at least one polygonal openings. Separate strips of underfloor can be laid against each other by means of a complementary connecting system. The connecting system prevents shifting the strips transversely to the longitudinal direction of the strips.
IT201700018094A1 discloses a flooring composed of prefabricated modular elements that are easily laid and interchangeable. A modular element comprises a base part provided with at least two perimeter edges, which perimeter edges have mutually complementary profiles. Making it possible to couple two floor elements together ensuring that they do not slide relative to each other, thanks to the interaction exerted by the complementarity of the profiles.
US20040139679A1 discloses a paving system for tiles, especially flagstones, for paving ceilings, walls, or floors, in which each tile is provided with a paving frame on which the tile rests over at least part of its area. The paving frames comprise, on each of two adjacent (intersecting) limbs, a fin for the accommodation of a rubber-elastic sealing profile that defines the width of the seam.
It is an object of the invention to provide an improved underlayment tile. The improved underlayment tile provides at least one of the following advantages: more flexibility to compose a flooring system, ease of laying a flooring system, the durable flooring system, removable and reusable, providing a waterproof floor covering, less stock needed to lay flooring systems with a diversity of tiles, laying tiles in different patterns.
According to the invention, this object is achieved by an underlayment tile for a modular surface covering system on a surface to be covered having the features as described herein. Advantageous embodiments and further ways of carrying out the invention may be attained by the measures mentioned in the dependent claims.
According to an aspect of the invention, there is provided a parallelogram-shaped underlayment element according to the subject disclosure comprises:
an essentially planar base with a support surface at its top side configured to support a parallelogram-shaped finishing layer element, the support surface having a perimeter corresponding to a parallelogram-shaped finishing layer element:
a raised edge along two interconnected sides of the support surface, the raised edge having a width defining a distance between parallelogram-shaped finishing elements when placed next to each other; and,
a coupling structure at a bottom side of the underlayment element for releasably coupling parallelogram-shaped underlayment elements. The coupling structure comprises first coupling elements located along the two interconnected sides with the raised edge and second coupling elements located along the other two interconnected sides of the support surface. The first coupling elements are connectable to second coupling elements of an adjacent underlayment element. The first coupling elements are located inside the perimeter defined by the support surface of the planar base. The second coupling elements are located outside the perimeter defined by the support surface, wherein the first coupling elements are recesses and the second coupling elements are protruding tongues, wherein the protruding tongues along a side of the underlayment tile have an outer circumference which corresponds with an inner circumference of the recesses along the opposite side of the underlayment tile, wherein a recess/protruding tongue can be coupled to a protruding tongue/recess of another underlayment element by a movement perpendicular to the planar base,
wherein each side of the underlayment element is composed of a plurality of adjacent uniform edge sections corresponding to the number of recesses or protruding tongues along said side.
The concept of the invention is based on the desire to cover an even surface, such as a floor and wall, with tiles that can subsequently be easily removed and whose removed parts can be reused to cover another even surface. Key of the invention is the used of underlayment tiles on which easily a finishing tiles can be placed. By laying the finishing tile with two sides against a raised edge along two interconnected sides of the underlayment tile, the finishing tile is aligned. By coupling another underlayment tile to the underlayment tile on which a finishing tile is placed, the finishing tile is fixed by clamping the finishing tile between the raised edge of the underlayment tile on which the finishing tile is placed and the raised edge of the another underlayment tile that is coupled. In this way, no adhesive is needed to fix a finishing tile. Furthermore, since no adhesive is used, by removing underlayment tiles that are coupled to the second coupling elements of an underlayment tile, the finishing tile that is placed on top can easily be taken from the underlayment tile. By having recesses in the bottom surface and corresponding protruding tongues, an underlayment element may be coupled simultaneous to two adjacent underlayment elements, by positioning the recesses above the protruding tongues of the two adjacent underlayment elements forming a corner to position the raised edge of the underlayment element to be positioned and subsequently moving said underlayment element perpendicular to the plane of the supporting surface to fix the protruding tongues in the recesses. The protruding tongues on opposite sides are equally spaced along the sides with a distance corresponding to the length of a side divided by the number of tongues/recesses along said side. This feature enables to lay tiles not only in a grid pattern but also in other patterns, e.g. brickwork pattern, stretcher bond pattern. This feature also enables to use tiles with different dimensions in a modular floor system.
In an embodiment, the top surface of the raised edge of an underlayment element closes the distance between neighbouring finishing layer elements. In this way, the raised edge between two finishing tiles provides a seal between the two finishing tiles at the top of the seal. This reduces the chance that moisture or dirt present on top of the floor will sink between the raised edge and the finishing tile.
In an embodiment, a cross section of the top surface of the raised edge of an underlayment element has a concave shape. As a result, dirt and moisture will first accumulate in the middle part of the top of the raised edge. As long as no dirt and/or moisture accumulates at the transition from top surface of the raised to a side of the finishing tile, no dirt and/or moisture can accumulate between side wall of the raised edge and side wall of a finishing tile abutting said raised edge.
In an embodiment, the raised edge is wider at the top than at the bottom. This feature improves the sealing quality of the raised edge as the resilient material as the upper part of the resilient material that makes up the raised edge is squeezed more between two finishing tiles than the lower part of the raised edge.
In an embodiment, the side of the raised edge facing away from the support surface leans forward. These features improve the sealing quality of the raised edge between adjacent finishing tiles.
In an embodiment, the side of ends of the raised edge leans outwards. This feature improves the sealing quality between the end side wall of a raised edge of an underlayment tile and a side wall of a raised edge of another underlayment tile coupled to said underlayment tile.
In another further embodiment, a protruding tongue comprises a first retaining structure and a recess comprises a second retaining structure, the first retaining structure and the second retaining structure are configured engage when a protruding tongue is pushed in a recess. When coupling two underlayment tiles of a modular flooring system, the recesses of an underlayment tile to be positioned are positioned above the tongues of an already laid underlayment tile. Then the underlayment tile to be positioned is pushed down, a tongue is pushed in a corresponding recess. The retaining structures prevent the tongue from slipping out of the recess so easily. In an embodiment of the retaining structures, the first retaining structure is a ridge or a groove and the second retaining structure has a structure complementary to the first retaining structure.
In an embodiment, the second coupling elements have a top surface with a chamfered edge and edges of the bottom surface of the essentially planar base that define the perimeter of the first coupling elements are chamfered. These features facilitate the insertion of a tongue into a recess when before joining two underlayment tiles the tongues are not accurately aligned with the recesses. Furthermore, as a finishing tile has to be clamped between the raised edges of two adjacent underlayment tiles, when an underlayment tile with its recesses is placed on the tongues of the adjacent underlayment tile on which a finishing tile is positioned, tension will build up in the elastic material of the tongues. This additional tension together with the tension in the material of the raised edges, causes the finishing tile to remain clamped between the raised edges. This method of securing the finishing tile further has the advantage of providing improved noise reduction when walking on the modular surface covering system.
In an embodiment, the underlayment element is made resilient plastic. The underlayment element according to the subject technology may be used for covering a floor or a wall. The parallelogram-shaped finishing element may have a shape which is one selected from a group consisting of: rhomboid, rectangle, rhombus and square. The present subject technology may be used to lay a modular surface covering system with at least one of the following patterns: grid pattern, brickwork pattern, herringbone pattern or a combination thereof.
According to a second aspect of the invention, there is provided a method for laying a modular surface covering system on a surface to be covered with the use of parallelogram-shaped underlayment elements described above.
These and other aspects, properties and advantages will be explained hereinafter based on the following description with reference to the drawings, wherein like reference numerals denote like or comparable parts, and in which:
When used in this description the expressions “horizontal”, “vertical”, “upper”, “lower” and similar expressions refer to directions in normal use of an underlayment element.
The planar base 102 comprises a support surface 104 at its top side configured to support a parallelogram-shaped finishing layer element 150 positioned on the underlayment element, and a coupling structure at a bottom side along the four sides of the planar base. The support surface has a perimeter corresponding to a parallelogram-shaped finishing layer element. The perimeter is defined by the dimensions of the parallelogram-shaped finishing layer element supported by the support surface 104. In the first embodiment, the perimeter forms a square. However, the perimeter and parallelogram-shaped finishing layer element may also have the form of a rhomboid, rectangle or rhombus.
The coupling structure at the bottom side of the underlayment element is configured for releasably coupling parallelogram-shaped underlayment elements. The coupling structure comprises first coupling elements 110 located along two interconnected sides 108A, 108B with the raised edge 106. Second coupling elements 112 are located along the other two interconnected sides of the support surface 104. The first coupling elements are connectable to second coupling elements of an adjacent underlayment element of a modular surface covering system. Seen in a direction perpendicular to the support surface, the first coupling elements 110 are located inside the perimeter defined by the support surface 104 of the planar base. Seen in a direction perpendicular to the support surface, the second coupling elements 1102 are located outside the part of the planar base 102 defined by the perimeter of the support surface 104.
The first coupling elements 110 are recesses in the bottom surface of the planar base 102. The second coupling elements 112 are protruding tongues. The protruding tongues 112 along a side of the underlayment tile have an outer circumference which corresponds with an inner circumference of the recesses along the opposite side of the underlayment tile. Two underlayment elements may be coupled by positioning one or more recesses forming first coupling elements of an underlayment element to be positioned above corresponding tongues forming second coupling elements of an already positioned underlayment element. Subsequently, the underlayment element to be positioned is moved downward such that one or more protruding tongues are pushed in the corresponding recesses. “Move downward” or “push downward” in the context of the present description means in a direction perpendicular to the support surface 104 of the underlayment element.
To improve the locking of a protruding tongue 112 in a recess 110, a protruding tongue comprises a first retaining structure 116 and a recess comprises a second retaining structure 114. The first retaining structure and the second retaining structure are configured to engage when a protruding tongue is pushed in a recess. The first retaining structure is a ridge or a groove and the second retaining structure has a structure complementary to the first retaining structure. The retaining structures are located about half-way the height of a tongue and half-way the depth of a recess and reduce the likelihood of tongues slipping out of corresponding recesses in a direction perpendicular to the support surface or bottom surface of the planar base 102.
Furthermore, as shown in
The raised edge 106 is located along two interconnected sides 108A, 108B of the support surface provided with the first coupling elements. The raised edge 106 forms an L-shape. The raised edge has a width which will define a distance between parallelogram-shaped finishing elements when placed next to each other and placed on underlayment elements.
The planar base 102 comprises a through hole 130 in the middle of the support surface 104. Vapour coming out of the material below the underlayment elements can escape to the air above the laminar finishing element 150 positioned on the support surface 104. Similarly, moisture that settles along the raised edge 106 and laminar finishing element 150 can through the through hole 130 temporarily be absorbed by the material below the underlayment element 100.
The underlayment element 100 is formed from an engineered plastics material such as injection moulded high-density polyethylene, which will advantageously provide a degree of resilience. Of course, it should be understood that other production methods and materials might be used without departing from the scope of the present application. For example, a mixture of plastic pellets and shredded recycled packaging, e.g. beverage containers, can be used. The underlayment element 100 is composed of one piece of material that includes the planar base 102 with recesses forming the first coupling structure, the protruding tongues forming the second coupling structure, and raised edge 106.
Furthermore, as the finishing layer element is clamped between the raised edges of two adjacent underlayment tiles, when an underlayment tile with its recesses is placed on the tongues of the adjacent underlayment tile on which a finishing tile is already positioned, tension will build up in the elastic material of the T-like protruding tongues 312. A part of the tension will be in the stem of a T-like tongues in the form of tensile stress and a part of the tension will be in the in the side branches of the T-like tongues in the form of bending stress. This additional tension together with the tension in the material of the raised edges 306, causes the finishing layer element 150 to remain clamped between the raised edges. This method of securing the finishing tile further has the advantage of providing improved noise reduction when walking on the modular surface covering system.
providing a multitude of parallelogram-shaped finishing layer elements 150, 152, 154, 156;
providing a multitude of parallelogram-shaped underlayment elements 360,362, 364, 366;
placing a first underlayment element on the surface to be covered (
placing a first parallelogram-shaped finishing layer element on the support surface and with two sides against the raised edge of the first underlayment element (
coupling at least one first coupling element of a second underlayment element 362 to corresponding second coupling elements 312 of the first underlayment element 360, causing the first parallelogram-shaped finishing layer element 150 to be clamped between the raised edge of the first underlayment element 360 and the raised edge of the second underlayment element 3629
placing a second parallelogram-shaped finishing layer element 152 on the support surface and width two sides against the raised edge of the second underlayment element (
coupling at least one first coupling element of a third underlayment element 364 to corresponding second coupling elements the first underlayment element 360, causing the first parallelogram-shaped finishing layer element 150 to be clamped between the raised edge of the first underlayment element and the raised edge of the third underlayment element (
placing a third parallelogram-shaped finishing layer element (on the support surface and with two sides against the raised edge of the second underlayment element (
coupling at least one first coupling element of a fourth underlayment element 366 to corresponding second coupling elements of the second underlayment element 362 and third underlayment element 364, causing the second parallelogram-shaped finishing layer element 152 to be clamped between the raised edge of the second underlayment element 362 and the raised edge of the fourth underlayment element 364 and causing the third parallelogram-shaped finishing layer element 154 to be clamped between the raised edge of the third underlayment element 164 and the raised edge of the fourth underlayment element 166 (
placing a fourth parallelogram-shaped finishing layer element 156 on the support surface and width two sides against the raised edge of the fourth underlayment element 366.
The thus obtained modular surface covering system forms floor wherein the finishing layer elements form a grid pattern. It should be noted that the method described above may also be used for the first and second embodiments of the underlayment elements.
The third embodiment of the underlayment elements has an advantage over the first and second embodiment. The third embodiment of underlayment elements allows the finishing layer elements to be laid in a pattern other than the grid pattern. This is the case when the recesses and the protruding tongues on opposite sides are equally spaced along the sides with a distance corresponding to the length of a side divided by the number of tongues/recesses along said side such that a side of the coupling structure is divided in corresponding sections. Each section along a side has an equivalent shape. In other words: each side of the underlayment element is composed of a plurality of adjacent uniform edge sections corresponding to the number of recesses or protruding tongues along said side. The length of a side of an underlayment element is the sum of the length of the corresponding side of the support surface and the width of the raised edge at the level of the support surface. The length of an edge section is the length of the side of an underlayment element divided by the number of recesses/protruding tongues along said side. The most left recess on a side of an underlayment element may be coupled to any of the protruding tongues on a side of another underlayment element.
All previous embodiments of a modular surface covering system which uses only finishing layer elements with the same dimensions require only one type of underlayment element. To form a modular surface covering system with a herringbone pattern, two different underlayment elements are required. For the first type when looking at the inward facing surface of the raised edge, at the left side of the joint between the legs of the raised edge is the long side of the underlayment element and at the right side of the joint is the short side of the underlayment element. For the second type when looking at the inward facing surface of the raised edge, at the left side of the joint between the legs of the raised edge is the short side of the underlayment element and at the right side of the joint is the long side of the underlayment element.
The described technology can also be used for rhombus shaped finishing layer elements.
The technology described above does not require that the finishing layer elements be bonded to the top surface of the underlayment elements with an adhesive. Furthermore, the material to be used for the finishing layer element is not limited to stone, wood, plastic, laminate, concrete, ceramics, material obtained by injection moulding of a mixture of recycled particles.
A characteristic of the underlayment elements according the present subject technology is that opposite sides have mutually cooperating protruding tongues and recesses. However, the dimension and shape of the mutually cooperating protruding tongues and recesses along first opposite sides and along second opposite sides may differ.
In the embodiment of underlayment elements, the protruding tongues and recesses have a perimeter which is mushroom-shaped. However, other shapes are suitable shapes may be used, e.g. dovetail joint. In another embodiment, the recess is a U-shaped groove with the ends of the legs directing outwards and the protruding tongue has a corresponding U-shaped that fits in the U-shaped groove.
It is clear to the skilled person that a underlayment element according to the subject technology that lies in the middle of a floor covering system is relatively easy to replace if damaged. The sides with the first coupling structure of the underlayment element to be replaced should be loosened by pulling it up. And when the underlayment elements lying on the tongues of the underlayment element to be replaced have also been loosened by pulling them upwards, the underlayment element to be replaced can be removed.
While the invention has been described in terms of several embodiments, it is contemplated that alternatives, modifications, permutations and equivalents thereof will become apparent to those skilled in the art upon reading the specification and upon study of the drawings. The invention is not limited to the illustrated embodiments. Changes can be made without departing from the scope of the appended claims.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2028782 | Jul 2021 | NL | national |
