The present invention is generally directed to an interlocking modular mat or tile and method of use in the field of flooring surfaces. The novel features of the mat or tile panels allow them to be cut along several locations to expose the internal ramp structure within each panel, providing the assembled mat system with ramps along the borders of the assembled mat. A method of interconnecting an arrangement of mat or tiles and exposing the ramped portions to provide a flooring surface or covering is also disclosed.
Modular floor mats or tiles are often used as components on the construction of a flooring system. A mat or tile system may be designed as a floor covering for an entire room, or a floor covering for a section of a room. Typically, the mat or tile system components may be manufactured from, for example, semi-rigid, plasticized, virgin polyvinyl chloride, virgin/reclaimed polyvinyl chloride mixtures and also materials such as recycled rubber, or from compression molded thermoplastic materials such as, thermoplastic polyurethane (TPU), or thermoplastic rubber, for example. Other materials include thermoplastic co-polyesters or thermoplastic polyamides, elastomeric alloys, polyolefin blends (TPE-o) and the like.
The mat or tile system, when used as a floor or ground covering, is suitable to withstand inclement weather, harsh environments, heavy traffic, and resist damage when exposed to harsh chemicals. Primary uses for the modular floor tiles of the present invention include providing lateral support, and providing comfort and reduction of fatigue during walking or standing. In the prior art, the use of molded mats, e.g., polyurethane foam molded mats, in industrial and commercial applications is well known. These foam mats are advantageous because of the resiliency and cushioned support that the foam provides for workers when the workers are engaging in tasks that require an excessive amount of standing in a given location.
Various types of modular floor tiles have increased in popularity due to their versatility. A free-standing modular floor mat system typically provides a non-slip modular system that optionally is self-draining and has multiple configuration capabilities.
The mat system is typically assembled from mat elements or units, herein referred to as mat or tiles. Typically, each mat or tile comprises interlocking members which connect adjacent panel members. Male and female portions are typically employed in the form of hole and peg structures, such as set forth in patents no. U.S. Pat. No. 8,006,443, or in jigsaw or tooth type structures as exemplified in U.S. Pat. No. 4,287,693. Conventionally, mats or tiles are assembled into a structure covering a floor or surface with a shape adapted to the intended shape of the mat or tile system. For example, the assembled mat or tile system can be simply a closed rectangular shape or a rectangular shape with inner open areas, or any overall shape that can be constructed with mat panel or tile member structures.
Further, a ramped mat component is typically attached to the periphery of the mat system, during or after assembly of the internal mat or tile components. The manner of attachment of the ramp portion is generally similar to the manner of male-female manner of attachment of the internal mat panel or tile elements, noted above. The ramp portion serves to allow a smooth transition between the upper surface of the mat or tile system and the existing flooring surface. Aside from aesthetics, the ramped portions provide a measure of safety against tripping by the user. For example, Pre Grant Publication 2009/0205269, Pre Grant Publication 2013/0291457, and U.S. Pat. No. 6,966,155, are illustrative of mat systems with attachable ramp components. These types of mat systems conventionally require separate ramp pieces and/or connectors to be purchased or modified to provide inside and outside corners when interlocked with the mat edges. For example, modifications by trimming ramp pieces to provide inside and outside corners, inherently weakens the integrity of the abutting ramp portions.
Further, another demand in the workplace is that floor mats need to be easily configured and reconfigured. Such prior art systems are not readily modified as they often require new ramp pieces or connectors, which may not be readily available. Further, mat systems using separate connectors have not worked well in practice because they get lost or make alignment between adjacent mats difficult during reinstallation.
In any of these mat systems, the ramped portion is affixed to a side of a mat, is and therefore not held in place as well as other internal mat members, which reinforce one another. Instead, the prior art ramp portions, being small and light relative to the mat, rely substantially upon frictional engagement between the ramp portion and a portion of the perimeter of the mat body to hold the ramp portion in place. Therefore, these designs are susceptible to being dislodged accidently by improper force moments by machinery or other devices typically used on these mats.
In light of the drawbacks noted above in prior art mat designs, a need exists to provide improved mat construction, particularly, in the area of how the mats are constructed or reused to form even greater mat areas. The present invention responds to this need with an improved mat or tile panel, as well as a method of assembling and tailoring the inventive mats or tiles into a mat system facilitating to the provision of a secure ramped border around entire mat system assembly.
Accordingly, it is one object of the invention to provide an improved interlocking mat panel or tile element design which minimizes the number of unique mat panel or tile units that are required for assembly into the desired mat system or configuration with a ramped border.
Along these lines, it is another object of the invention to provide an improved interlocking mat panel or tile element design requiring only a single repeating mat panel or tile unit for assembly into the desired mat system or configuration having a ramped border.
Yet another object of the invention is a method of assembling and tailoring the assembled mat or tile system with the desired ramped border using a single cutting operation after assembly of the mat system, or tailored while the mats are assembled to expose the ramp borders.
Still another object of the invention is a method of modifying an existing mat system by removal and relocation of mat panel or tile elements and then cutting of mat panels along provided cut lines to expose new ramped portions within the mat panel to provide new borders around the mat system.
Other objects and advantages will become apparent as a description of the invention proceeds.
In satisfaction of the foregoing objects and advantages, the invention, in one mode, comprises a molded mat or tile panel which overall, is generally planar, has a top and bottom and sides.
In this application, the word “tile” is synonymously used with the term “mat”, which, in turn, are also referred to as mat or tile “panels”, “members”, “units” or “structures”. The terms “mat system” or “tile system”, “mat assembly”, and “tile assembly” are meant to define an assembly of mats or tiles to provide a covering for the floor or ground.
The mat of the present invention is fabricated with an inner core structure, designed to support traffic and, optionally, allow ventilation and drainage of liquids through the mat system. The internal core structure, for example, includes projection elements extending between said upper and lower portions of the internal core structure. The projection elements are exemplified by knoblike, peg like, conical, truncated conical members which distribute traffic loadings from the upper to the lower core portions, along the surface of the inner core structure. Further, ventilation and drainage is accommodated, for example, by a series of apertures or openings provided in the upper portion of the inner core structure, which is subjected to foot traffic.
Importantly, the inner core structure is provided with a tapered ramp structure formed around its sides, preferably during the molding process. This tapered ramp structure is further integrally connected to the outer panel structure by an attachment structure, which effectively bridges the inner core structure, having ramped sides, with the outer panel structure. The attachment structure effectively bridges the inner core structure with the outer panel structure and is formed by a channel, trough or groove molded into the upper and lower portions of the mat, adjacent to the ramped edge of the mat core structure.
Also possible is that the attachment structure can be discontinuous along the channels. For example, a series of tab members or segments, which are positioned around the internal core structure, can be used to secure the internal core structure to the outer panel structure.
Again, the attachment structure is preferably molded concomitantly with the internal core structure and outer panel structure, during the molding or formation of the mat. Therefore, the attachment structure is integral with the panel and to both inner core structure and outer panel structures, providing a secure coupling between the internal core and outer panel structures.
Further, the attachment structure of the present invention is designed to be readily severable, preferably by cutting operations, from the inner core structure and outer panel structures to allow exposure of the ramped profile along the periphery of the inner core structure, either before or after assembly of the mat system. To facilitate the severability of the mat, the mat can include one or more channels, troughs, or grooves, hereinafter channels. The channel can exist in the top or the bottom of the mat or both. The channel can be formed in the mat during its manufacture or exist as a result of the manner in which the side and corner panels are attached to the inner core structure. That is, a channel would exist where an end of a ramped surface of the inner core structure meets with a side panel. Similarly, such a channel would exist where the end of a ramped surface of a side panel meets with an underside of a corner panel. When employing a channel in the top of the mat, two ramped surfaces could exist for the inner core structure or side panel. The channel provides a guide along which a cutting implement or tool, e.g., a knife or the like, could be used to sever the side and/or corner panel of the mat to form a ramp-containing peripheral side. The shape of the channel formed by the junction of the end of the ramped surface and the underside of a side or corner panel is a function of the configuration of the underside of the side or corner panel. When this underside is raised from an overall bottom surface of the mat, the channel would be more v-shaped. If the underside of the corner or side panel would be aligned with the overall bottom of the mat, the channel would be more like a slit. Thus, the shape of the channel when existing in an underside of the mat can vary depending on the configuration of the underside of the side and/or corner panels.
In a further preferred embodiment, the channel, whether on the top and/or bottom can extend in a generally straight lines from each of the peripheral edges of the inner core structure to the outer perimeter of the outer panel structure. This effectively partitions the outer panel structure into side panels which oppose each side of the internal core structure and corner panels which abut adjacent side panels. In the preferred embodiment of a square or rectangular mat panel, there would be four side panels in parallel with each side of the inner core structure and four corner panels which abut adjacent side panels.
Additionally, the ramped profile of the peripheral sides of the inner core continues their shape, extending in straight lines through adjacent side panels towards the periphery of the edge of the mat. In this preferred embodiment, the entire panel can be completely cut along any of cutting channels to sever the attachment means bridging the inner core structure and side panel and/or between the side and corner panels. This novel design of the inventive mat panels allows for the inner core structure, side or corner panels to be simply cut out of the mat assembly to form the desired ramp portions around the border of the mat system, during or after installation of the mat system.
Since the attachment structure is integral and therefore formulated with the same materials as both the internal core and outer panel structures, it is important that the materials used to form the mat panels, preferably by molding operations, be soft enough to allow removal of the panels by cutting operations to expose the ramped border. To this effect, it is preferred to employ PVC, rubber, TPE or the like, which are resilient yet provides a resilient cushioned mat which can be trimmed by cutting with a blade, knife, or cutting tool. Other thermoplastic or thermosetting polymers can be used in the present invention to the extent they are suitable for a mat and with the proviso they can be easily cut by a blade or knife or other cutting tool. The detailed description provides additional details as to the softness of the preferred mat material to facilitate cutting operations.
Another aspect of the present invention is the requirement that unique panel members, described above, interlock with each other in order to be assembled into a mat system with ramped borders.
Any number of interlocking techniques can be applied to the instant invention. However, for the sake of illustration, the various drawings depict a series of outwardly projecting female couplings which interconnect with complementary male couplings, located on the underside of the mat. Male and female interlocking couplings serve to connect adjacent mats to form a mat system.
A further embodiment locates female connectors on two adjacent sides of the mat, with symmetrically opposed male connectors located on the remaining adjacent sides.
However, it is important to recognize that the novelty of this invention does not rely on a particular mat interlocking scheme. For example, while preferred, the female connector locations do not have to reside on two adjacent sides of the mat. For example, the female connector locations can alternate with the male connector locations in any desired pattern. Any conventional manner of interlocking can be also applied to join adjacent mats to the extent it cooperates with the novel ramp exposure design provided by the mat of the present invention.
Another aspect of the invention is a method of constructing the mat using the novel mats of the present invention.
For the purposes of this disclosure, the word “tile” is used synonymously with the term “mat”. The terms, “mat” or “tile”, for the purposes of this disclosure, also are also referred to as “mat” or “tile”, “panels”, “members”, “units” or “structures”. The terms “mat system” or “tile system”, “mat assembly”, “tile assembly” are meant to define an assembly of mats or tiles to provide a covering over a floor or ground
Referring to
The top surface of mat 1, particularly the inner core structure 2, may comprise any number of patterns of holes or apertures 7 to allow the passage of air or a liquid. These mat or tiles are also suitable for wet working environments. Further, as mentioned above, apertures 7 also serve to provide a degree of slip resistance to complement traction surfaces 6. Although apertures 7 are depict apertures of the present invention, it is to be understood that any suitable shaped or sized aperture could also be used, inasmuch it serves to provide the requisite drainage, traction and structural integrity of the mat and assembled mat system.
The support legs 8 are exemplified by knoblike, peg like, conical, truncated conical members. However, any conventional supporting shaped structures can be used in place of those mentioned above.
Also,
The term “male” refers to knob, pin or peg-type components. The term “female” refers to the components that have a socket or lug-type compartment that is sized and spaced to accommodate the “male” component. The “male” and “female components are complimentary to one another in the sense that the “male” components may be securely inserted into the “female” components in a way that provides a mechanism for holding adjacent tiles to one another. As described herein, “male” components may be used to assist in providing vertical support to the mat, whether coupled to a “female” component of an adjacent tile or not. Typically, all male components provide some type of vertical support to the mat.
Referring to
Complimentary male connectors 10 are provided and they project below a top surface of the side panels 4 and corner panels 5. Further, each male connector 10 is along an edge of the mat opposite to the side of the mat having a corresponding female connector. The male connectors 10 are adapted to engage recesses of the female connectors 9 of an adjacent mat and the recesses of each female connector are adapted to receive inner male connectors of an adjacent mat to link one or more adjacent mats together.
An embodiment illustrated in
A key feature of the present invention is a ramp structure 20, which comprises a pair of ramped surfaces 11 and 13 and is depicted in
Referring to
Ramped surfaces 11 and 13 are disposed on the sides of the side panels 4′ which face corner pieces 5′. With reference to
Referring to
In
Of course, one of ordinary skill in the art would be able to determine optimum values of D2 for a particular mat material, given a desired target mat thickness D3 and selected slope along ramped surfaces 11 and 13.
It is also possible that the bridge attachment structure 14 in
A typical tile of the present invention may be manufactured by injection or compression molding, and typically comprise a thermoplastic material such as flexible thermoplastic polyurethanes (TPU), or semi-rigid polyvinyl chloride or thermoplastic elastomer. Additionally a thermosetting plastic such as rubber may be used. Basically any material that is semi-rigid, semi-flexible, or elastomeric (e.g., flexible PVC, thermoplastic elastomers) that are capable of being injection molded can be used. Additionally, thermosetting rubbers and thermosetting elastomers capable of being compression molded can be used. Alternatively, the side and corner panels could be linked to the inner core structure using an adhesive technique, which would still maintain the integrity of the attachment structure and its link between the inner core structure and the side and corner panels and provide an alternative method of making the mat to molding.
The plastic or rubber material should exhibit some degree of conformability so as to provide comfortable footing and mating of the tiles. Additionally, the material should exhibit a reasonable degree of structural integrity so as to support personnel and light industrial traffic. One of ordinary skill in the art can chose a material based on many desired characteristics of the resulting tile. For example, a material may be that is resistant to oils, greases, weak solvents, and chemicals typical of an industrial environment. A material may be chosen to exhibit a reasonably high coefficient of friction so as to reduce the risk of slipping. Additionally, embodiments of the present invention may also be conditioned to withstand inclement weather or other harsh environments, heavy traffic, and to resist damage when exposed to harsh chemicals.
In this invention, a further requirement is that the selected mat or tile material be soft enough to be easily severed or cut by a knife or blade or other cutting implement to facilitate removal of the mat elements to expose desired ramp borders in the final mat system or assembly. This requirement therefore defines which of the material or formulations of the materials can be preferably used.
Since the attachment structure 14 is integral and therefore preferably formulated with the same materials as both the internal core and outer panel structures, it is important that the materials used to form the mat panels, preferably by molding operations, be soft enough to allow cutting operations, preferably with a hand operated cutting tool. Mat compositions which provide cushioning with few exceptions are amenable to being cut with a knife or blade. It is preferred to use thermoplastic for the mat composition, satisfying structural requirements above and are easily cut using a knife or blade. However, any conventional thermoplastic or thermosetting polymer material meeting the mat requirements earlier above with the proviso that the Shore Hardness of the formed mat is in the range of from 50 to 95 A to facilitate cutting of the mats to expose a ramped border around the periphery of the assembled mat system.
While
In yet another embodiment, the mat would be made so that the underside of the corner panel or side panel could extend so that it is aligned with the underside of the inner core structure. In this embodiment, the channel would extend upwardly with the one ramp surface still existing and be more like a slit than the v-shape depicted in the drawings when the underside of the side panel or corner panel does not extend so as to align with the bottom of the mat. With the underside of the corner panels and side panels extending to the bottom of the overall mat, the channel could be formed from the top surface and the attachment structure would be at the bottom of the mat rather than at the top as shown in
Another aspect of the invention is a method of constructing the novel mat of the present invention into a mat assembly or mat system having a ramped border.
First, the mats of the present invention are interconnected on adjacent sides to form a desired pattern. Either during or after assembly, internal core, side or corner panels to be simply cut out of the mat along any of the channels to expose the desired ramp surface around the periphery or border of the mat system.
Referring to
As such, an invention has been disclosed in terms of preferred embodiments thereof which fulfills each and every one of the objects of the present invention as set forth above and provides a new and improved interlocking modular mat with an integral ramp feature and method of use.
Of course, various changes, modifications and alterations from the teachings of the present invention may be contemplated by those skilled in the art without departing from the intended spirit and scope thereof. It is intended that the present invention only be limited by the terms of the appended claim.