The present invention is generally directed to an interlocking modular mat that employs a sponge insert that resides in a cavity formed by a top portion of the mat and a plurality of structures extending around a periphery of the mat.
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 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.
These types of mats often have supporting structures that underlie the top portion of the mat. An example of this kind of construction is U.S. Pat. No. 8,006,443, which is incorporated by reference in its entirety, including materials, construction, methods of making and methods of use. These structures tend to give the mat a rigid or hard feel that can increase the fatigue of a person standing on the mat for long periods of times. As such, a need exists for modular mats with softer feels while still maintaining the integrity of the modular mat and ability to interconnect to adjacent mats.
The invention relates to an improved interlocking modular mat and method of use.
One embodiment of the interlocking modular mat comprises a mat body, the mat body having a top portion, the top portion having four sides, first and second sides of the four sides including a set of female connectors and third and fourth sides of the four sides including a set of male connectors, each female connector configured to interface with a male connector of an adjacent interlocking modular mat so that a side of the interlocking modular mat with the female connectors can connect to a side of an adjacent interlocking modular mat having male connectors.
The mat body includes a plurality of structures extending from an underside of the top portion and around a periphery of the top portion, the structures forming a cavity with the underside of the top portion. A sponge insert is provided, the sponge insert sized to fit within the cavity formed in the mat body, the sponge insert having a height dimension such that when inserted in the cavity, a bottom portion of the sponge insert extends beyond a bottom of the plurality of structures extending from an underside of the top portion of the mat body as well as bottoms of the female and male connectors.
At least some of the plurality of first wall structures positioned along the first and second sides can have a female connector extend therefrom.
For the plurality of second spaced apart wall structures extending along the third and fourth sides, the second spaced apart second wall structures are arranged so that a male connector is positioned between adjacent second spaced apart wall structures.
In one embodiment, the sponge insert periphery forms a continuous wall to engage at least a portion of the plurality of structures forming the cavity. In another embodiment, the sponge insert has cutout portions along a periphery thereof for the first wall structures associated with the female connectors and the male connectors.
In a further embodiment, the plurality of structures can include a protrusion having a free end extending toward a center of the mat body, the free ends of each protrusion aligned to define a periphery of the cavity for the sponge insert.
The wall structures can be hollow rectangular structures with reinforcing ribs or in the shape of a wall as an extension of the top portion of the mat body.
The invention also includes a method of interlocking the modular mats together to form a mat assembly of desired size. In this method, a plurality of the interlocking modular mats are provided. Then, female connectors of one mat body are connected to the male connectors of another mat body and this sequence of interlocking is continued for a number of mat bodies until the mat assembly of desired size if formed.
A first embodiment of the inventive interlocking modular mat, hereinafter the modular mat, is designated by the reference numeral 10 and depicted in
With reference to
Wall structures 19 are provided that are also spaced apart along the sides 7 and 9 of the mat body 1. The wall structures 19 function, in one mode, as an anchor for the female connectors 13. Similarly, the male connector sides 9 and 11 have spaced apart wall structures 21 to allow access to the male connectors 15 via gap 22. In the
While the wall structures 19 that provide a mounting location for the female connectors 13 are spaced apart, the wall structures could extend along the entirety of the two sides 5 and 7. For example, if the male connectors 15 positioned along sides 7 and 9 were not needed, the space shown in
The walls structures 19 and 21 along with the underside 17 of the top portion 1 form a cavity 31, see
Still referring to
The sponge material is dimensioned in height h, see
The purpose of having the height of the sponge insert 33 to extend beyond an underside of the modular mat as shown in
A main difference between the embodiments of
In modular mat 50, a number of wall segments are provided along the periphery 62 of the mat body. For the male connector sides 59 and 61, see
For the female connector sides, 55 and 57, there are wall structures 71, the wall structures spaced apart as their primary function is to anchor the female connectors 63 to the modular mat 50. In the
Similar to
The sponge insert can be made of any resilient material as can the molded modular mat. The material of the sponge should be more resilient than the material of the mat so that the cushioning effect of the sponge is felt when the mat is being used. If the sponge material were like the material of the mat, the cushioning provided by the sponge material carrying the load or most of the load on the mat would be non-existent. The sponge material should not be so soft that it compresses to the point that the bottom surfaces of the mat components like the wall segments, wall structures, etc. take the load placed on the mat. An example of such a material for the sponge insert would be a PVC/NBR foam and an example of the material for the modular mat would be a flexible PCV, with these two materials providing the necessary difference in resiliency to provide the cushioning effect of the modular mat.
While the sponge insert is shown in one piece, it could be made into segments, e.g., four segments to occupy the cavity. Also, while the sponge insert is shown as one material, it could be made as a laminate to obtained the desired resiliency.
Also, although the cavities 31 and 77 are shown without any structure extending from the underside of the top portion of the mat, extending structures could be used if a need for such structures were needed for a particular mat application, e.g., include a post extending from the underside of the top portion of the mat in the center thereof to provide more support in the center of the mat. In this instance, the sponge insert would have the appropriate openings) to accommodate any structures extending from the underside of the top portion in the cavity space.
The configurations of the female connectors and male connectors are exemplary of typical peg and hole connection used for modular mats and other configurations/locations could be employed that use a peg of some type for the male connection and a hole-containing structure for the female connection.
The sponge insert can be located in the cavity by a press fit, wherein the sponge would be made a little larger than the inside surfaces of the mat body forming the cavity so that it would be compressed slightly so as to be held in place. The sponge insert can also be mounted in the cavity using an adhesive as well, e.g., glue the sponge to the underside of the mat top portion. A mechanical attachment or combination of mechanical attachment and adhesive could also be employed.
Methods of molding the modular mat or making these types of mats are well known and further detailed as to how the modular mats are made are not necessary for understanding of the invention.
In the method of using the interlocking modular mat, a plurality of mat bodies can be provided the mat bodies can be interlocked by engagement between male connectors/female connectors of one mat with female connectors/male connectors of another mat and this interlocking can be repeated with other mat bodies until a mat assembly of a desired size is created.
The invention provides a significant advantage in terms of comfort and ease of use of modular mats as the sponge insert gives the mat bodies a more cushioned feel, while at the same time, the mats retain their interlocking capability and peripheral integrity. With the sponge insert extension, the bottom of the sponge insert, i.e., the side away from the side facing the underside of the top portion of the mat because the general support surface for the modular mat when in use. While the outer peripheral structure of the mat body may bear the weight of the use if the weight is concentrated directly over a particular peripheral structure(s), e.g. a female connector, overall, the sponge insert will provide more of the support and provide an improved feel of the modular mat in use.
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 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 claims.
Number | Date | Country | |
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Parent | 15843494 | Dec 2017 | US |
Child | 16839101 | US |