SE2051278A1 - Mat locking strip and mat system - Google Patents

Abstract

A mat locking strip (20) for being attached to an edge portion of a mat (10) and for interconnecting a plurality of mats (10) is provided. The locking strip (20) comprises: a longitudinally extending body (30) having a top side (31) and a bottom side (32), each side (31, 32) comprising a plurality of protruding ridges (34) defining intermediate trenches (36), the ridges (34) having a continuous extension along the longitudinal extension of the body (30); the body (30) having a first end configured to be arranged closest to the mat (10) and a second end configured to be arranged farthest away from the mat (10); wherein the ridges (34) of the top side (31) of the body (30) are arranged opposite the trenches (36) of the bottom side (32) of the body (30), and the trenches (36) of the top side (31 ) of the body (30) are arranged opposite the ridges (34) of the bottom side (32) of the body (30).To be published with Fig. 2b.

Description

MAT LOCKING STRIP AND MAT SYSTEM Technical Field The present invention relates to the field of interconnecting mats. More particularly, the present invention relates to a mat locking strip for interconnecting a plurality of mats and a system of mats comprising such mat locking strips.

Background Mats are frequently placed in large pluralities at retail or workplace environments for a number of reasons, such as cleanliness or comfort. Such mats may be very large to cover large surfaces and to ensure the weight of the mats keep them in place. However, such large mats are heavy and cumbersome to handle e.g. during regular exchanges and therefore may be difficult to lay and clean. ln order to alleviate the problems associated with such large mats, there have been prior art attempts to create mechanisms for connecting smaller, less cumbersome mats into a mat system once the mats have been laid.

However, such prior art attempts may require exceptional effort when and if exchanging the mats, in order to connect and disconnect adjacent mats of the mat system, which prolongs the laying and cleaning process. Furthermore, a robust and flexible connection mechanism should be employed to ensure that the mats of the mat system are interconnected despite external pressure, e.g. excerted by high traffic of walking people, shopping carts, or other wheeled traffic on them.

Summary Thusly, the present invention strives to solve at least some of the above problems and to eliminate or at least mitigate some of the drawbacks of prior-art systems. This object has now been achieved in accordance with the invention by the novel technique set forth in the appended independent claims; preferred embodiments being defined in the related dependent claims.

A further object of the present invention is to provide a mat Iocking strip that is easy to use and manufacture.

According to a first aspect, the above and other objects of the invention are achieved, in full or in part, by a mat Iocking strip for being attached to an edge portion of a mat and for interconnecting a plurality of mats. The Iocking strip comprises: a longitudinally extending body having a top side and a bottom side, each side comprising a plurality of protruding ridges defining intermediate trenches, the ridges having a continuous extension along the longitudinal extension of the body; the body having a first end configured to be arranged closest to the mat and a second end configured to be arranged farthest away from the mat; wherein the ridges of the top side of the body are arranged opposite the trenches of the bottom side of the body, and the trenches of the top side of the body are arranged opposite the ridges of the bottom side of the body.

Two mat Iocking strips may interconnect by aligning them such that the ridges of a first mat Iocking strip faces the trenches of a second mat Iocking strip and then pressing them together such that the ridges of the first mat Iocking strip are inserted into the trenches of the second mat Iocking strip and vice versa.

The two mat Iocking strips thereby form a connecting pair, with one mat Iocking strip lockingly overlapping the other.

The mat Iocking strips may interconnect anywhere along the continuous extension of the ridges. Thus, a first and a second mat Iocking strip may be longitudinally displaced in view of each other while still allowing a Iocking engagement. Hence, ridges with a continous extension are simple to connect to an opposite trench of another mat Iocking strip.

By the ridges being arranged opposite the trenches, a greater stability of the body may be achieved. Furthermore, two mat Iocking strips may thereby interconnect at the same horizontal (i.e. along the plane of the mat) position regardless of which mat Iocking strip is on top of the other, which further simplifies connection.

The mat Iocking strip comprises ridges and trenches that alternate along the lateral extension of the body, i.e. perpendicular to the Iongitudinal extension of the body, ridges and trenches.

The prodtruding ridges protrude from the mat Iocking strip perpendicular to the (horizontal) extension of the mat. The mat Iocking strip itself longitudinally extends away from the mat parallel with the (horizontal) extension of the mat.

Each trench is defined by adjacent ridges that form the sidewalls of the trench. The bottom wall of each trench is defined by the top- or bottom side of the body of the mat Iocking strip.

The ridges and the trenches preferably have a straight linear extension. lt is however understood that the ridges with remained function may be curved as seen along the Iongitudinal extension of the body.

Furthermore, if the edge of the mat is curved and the ridges and trenches have a straight linear extension as seen from above, the ridges and trenches are curved as seen along the Iongitudinal extension of the body, which follows the edge of the mat, while still being able to connect to another mat Iocking strip with non-curved ridges and trenches.

According to one embodiment, the ridges and trenches on the top side of the body is complementary with the ridges and trenches on the bottom side of the body.

The term "complementary" is used herein to refer to the ridges having the same shape as the trenches of the other side and vice versa. The ridges and trenches are thereby inversions of each other.

The complimentary shapes enable a high friction between the ridges and trenches, which allows for the mat Iocking strips to stay connected despite external forces.

According to one embodiment, the top side of the body further comprises a top stopping member having an extension along the Iongitudinal extension of the body; the top stopping member being arranged along the first end of the body and having a height exceeding a combined thickness of the body and a ridge of the bottom side of the body as seen at the second end of the body.

The top Stopping member of a Iowermost mat Iocking strip of a connecting pair prevents the topmost mat Iocking strip of the connecting pair from slipping as a result of external forces.

The height of the top stopping member further prevents the second end of the body of the topmost mat Iocking strip abutting the top stopping member of the Iowermost mat Iocking strip from bending upwards and disconnecting the connecting pair as a result of external forces.

According to one embodiment, the bottom side of the body further comprises a bottom stopping member having an extension along the longitudinal extension of the body; the bottom stopping member being arranged along the first end of the body and extending beyond the height of a ridge on the bottom side of the body.

The bottom stopping member of a topmost mat Iocking strip of a connecting pair prevents the Iowermost mat Iocking strip of the connecting pair from slipping as a result of external forces.

The height of the bottom stopping member may prevent the Iowermost mat Iocking strip from slipping below the bottom stopping member of the topmost mat Iocking strip to move towards the mat. The height may further support the first end of the body of the Iowermost mat Iocking strip of the connecting pair.

According to one embodiment, the ridges and/or the trenches have a rectangular cross-section as seen in a direction transverse to the longitudinal extension of the body.

The term "rectangular cross-section" is used herein to refer to the ridges and/or the trenches having right-angled sides.

A rectangular cross-section is easy to manufacture and it enables the ridges and/or the trenches to easily be connectable without losing much potential friction in the event the ridges should not be fully inserted into the trenches. Further, if both the ridges and trenches have rectangular cross- sections, their surfaces interface with each other to a large extent and at an angle resistant to external forces.

According to one embodiment, the mat Iocking strip further comprises a folding line having an extension along the longitudinal extension of the body.

The folding line allows the mat Iocking strip to be folded at a specific position such that the top side of the body acts as the bottom side of the body, while being horizontally shifted by the folding. Thereby, the mat Iocking strip may be selectively configured to interlock with another mat Iocking strip at different positions. For example, the mat Iocking strip may be folded underneath the mat it is attached to, to allow for mats to be interconnected without visible mat Iocking strips. Furthermore, an unwanted mat Iocking strip may be hidden away below the mat using the folding line.

According to one embodiment, the mat Iocking strip further comprises a mounting member having an extension along the longitudinal extension of the body and adjacent the first side of the Iocking strip, the mounting member being configured to extend towards the mat.

The mounting member allows the mat Iocking strip to be fixedly attached to any mat, e.g. by adhesively bonding the mounting member to the bottom side of an edge portion of a mat. Further, the mounting member may increase the stability of the mat Iocking strip.

According to one embodiment, a major geometrical plane extending across the longitudinal extension of a bottom side of the mounting member forms an angle to a major geometrical plane extending across a top surface of a ridge of the bottom side of the body.

By forming an angle between the mounting member and the body of the mat Iocking strip, the extension of the body may be biased downwardly to simplify connection and/or improve the resting position of the mat Iocking strip.

The angle formed may bias the body of the mat Iocking strip downwardly towards the floor. Thereby, the body is prevented from bending upwards, which may otherwise cause an tripping accident.

According to a second aspect of the present invention, a mat Iocking strip for being attached to an edge portion of a mat and for interconnecting a plurality of mats is provided. The Iocking strip comprises: a longitudinally extending body having a top side and a bottom side, wherein the top side oomprises a plurality of protruding ridges defining intermediate trenohes, the ridges having a oontinuous extension along the longitudinal extension of the body; the body having a first end oonfigured to be arranged olosest to the mat, the first end oomprising a folding line having an extension along the longitudinal extension of the body.

The mat looking strip is oonfigured to connect to another mat looking strip when a first of the two mat looking strips is folded suoh that the top side of the body of the first mat looking strip faoes the same direotion of the bottom side of the body of the seoond mat looking strip and the ridges and trenohes of the first and seoond mat looking strips faoe eaoh other.

The mat looking strip is further oonfigured to oonneot to the mat looking strip aooording to the first aspeot.

This allows for single-sided mat looking strips to interoonneot with eaoh other and with double-sided mat looking strips. Thereby, a thinner total thiokness of two oonneoting mat looking strips may be aohieved.

Furthermore, two oonneoting mat looking strips may be oonneoted underneath the mat oomprising the folded mat looking strip without being visually notioeable.

The embodiments and advantages of the first aspeot are generally applioable also to this mat looking strip.

Aooording to a third aspeot of the present invention, a mat system is provided. The mat system oomprises plurality of mats, eaoh mat oomprising a mat looking strip aooording to the first or seoond aspeot arranged along a side edge portion of the mat; and wherein the plurality of mats is oonfigured to be interoonneoted by the ridges of the top side of the body of the looking strip of a first mat lookingly engaging with the trenohes of the bottom side of the body of the looking strip of a seoond mat.

Suoh a mat system with two or more interoonneoted smaller-sized mats is simple to handle and servioe oompared to a single mat of oomparable size. lt is to be understood that the mats, with the remained funotion alternatively may be oonfigured to be interoonneoted by the ridges of the bottom side of the body of the Iocking strip of the second mat engaging with the trenches of the top side of the body of the Iocking strip of the first mat.

The embodiments and advantages of the first aspect are generally applicable also to the mat system.

According to one embodiment, each side edge portion of each mat comprises a Iocking strip.

By each mat comprising a mat Iocking strip along each side edge portion of the mat, the mats may be freely rotated while assembling the mat system. This simplifies and speeds up assembly and allows for more freedom during assembly.

According to one embodiment, the Iocking strips are integral with the mats.

By integrating the mat Iocking strips with the mats, a more robust mat system may be provided. Furthermore, it may be efficient to manufacture the mat Iocking strips at the same time as the mats.

According to one embodiment, the Iocking strips are mounted to the mats.

By mounting the Iocking strips to the mats, the mat Iocking strips may be formed separately from the mats.

The mat Iocking strips may be mounted to the bottom of the mats. They may be mounted using welding, adhesive bonding or be mechanically attached using e.g. fastening means such as a nail or staple.

According to one embodiment, a major geometrical plane extends along a top surface of a ridge of the bottom side of the body of a Iocking strip and forms an angle to a major geometrical plane extending along the bottom side of the mats.

By forming an angle between the mats and the body of the mat Iocking strips, the extension of the body may be biased downwardly to simplify connection and/or improve the resting position of the mat Iocking strips.

The angle formed may bias the body of the mat Iocking strips downwardly towards the floor. Thereby, the body is prevented from bending upwards, which may otherwise cause an tripping accident. lf the mat Iocking strips are flexible, the mat Iocking strips may still be parallel with the floor when connected. The weight of the mats will ensure that only the mat Iocking strips are affected by the biasing and will cause the biasing of the mat Iocking strips to partially flatten out once the mats are laid as the connection point to the mats will be close to the floor.

According to one embodiment, the Iocking strips are configured to interconnect the mats while protruding away from the side edge portions of the mats and while forming a connecting strip between the mats.

By connecting the mat Iocking strips while protruding away from the mats, it may be easier to align the respective mat Iocking strips with each other. Furthermore, the connecting strip formed may clearly delineate different types of mats within the same mat system.

According to one embodiment, the mat system further comprises a joining member comprising at least two Iocking strips arranged along at least two side edge portions of the joining member, the Iocking strips of the joining member being configured to interconnect two spatially separated mats by the ridges of the top side of the body of a Iocking strip of the mats engaging with trenches of a bottom side of a body of the Iocking strip of the joining member. lt is to be understood that the joining member, with the remained function alternatively may be configured to comprise at least two Iocking strips configured to interconnect two spatially separated mats by the ridges of the bottom side of the body of a Iocking strip of the mats engaging with trenches of a top side of a body of the Iocking strip of the joining member.

Such a joining member may be used to interconnect mats of separate mat systems into a single mat system. lf mats are not wanted along the entirety of a floor surface, separate mat surfaces may be interconnected for support using the joining member.

The joining member comprises at least two Iocking strips with ridges and trenches of a bottom side of a body of the Iocking strips. These Iocking strips of the joining member may be different from the Iocking strips according to the first aspect in that ridges and trenches may not be arranged on a top side of a body of the Iocking strips.

The ridges and trenohes of a bottom side of a body of the looking strips of the joining member are oonfigured to engage with the ridges and trenohes of the top side of the body of the mat looking strip of the mats of the mat system. Thereby, the ridges and trenohes of the joining member may be oomplementary with the ridges and trenohes of the mat looking strip of the mats of the mat system.

Aooording to one embodiment, the looking strips of the joining member are the looking strips aooording to the first aspeot.

Thereby, the looking strips of the joining member have ridges and trenohes arranged on a top side of a body of the looking strips. This enables two spatially separated mats to be interoonneoted by the ridges of the bottom side of the body of a looking strip of the mats engaging with trenohes of a top side of a body of the looking strips of the joining member.

Furthermore, it may be simpler to manufaoture the same type of looking strips for both the mats and the joining member of the mat system.

Other objeotives, features and advantages of the present invention will appear from the following detailed disolosure, from the attaohed olaims, as well as from the drawings. lt is noted that the invention relates to all possible oombinations of features. lt should be emphasized that the term "oomprises/oomprising" when used in this speoifioation is taken to speoify the presenoe of stated features, integers, steps, or oomponents, but does not preolude the presenoe or addition of one or more other features, integers, steps, oomponents, or groups thereof. All terms used in the olaims are to be interpreted aooording to their ordinary meaning in the teohnioal field, unless explioitly defined otherwise herein. All referenoes to "a/an/the [element, devioe, oomponent, means, step, eto.]" are to be interpreted openly as referring to at least one instanoe of the element, devioe, oomponent, means, step, eto., unless explioitly stated otherwise.

Brief Desoription of the Drawinqs By way of example, embodiments of the present invention will now be desoribed with referenoe to the aooompanying drawings, in whioh: Fig. 1a shows a vertical cross-section of a mat Iocking strip according to an embodiment; Fig. 1b shows a vertical cross-section of two connecting mat Iocking strips according to an embodiment; Fig. 2a shows a vertical cross-section of a mat Iocking strip with a top stopping member and a bottom stopping member according to an embodiment; Fig. 2b shows a vertical cross-section of two connecting mat Iocking strips, each with a top stopping member and a bottom stopping member, to an embodiment; Fig. 3a shows a vertical cross-section of a mat Iocking strip with a folding line according to an embodiment; Fig. 3b shows a vertical cross-section of two connecting mat Iocking strips where one is folded according to an embodiment; Fig. 4a shows a vertical cross-section of a mat Iocking strip with a mounting member that forms an angle to ridges of the mat Iocking strip according to an embodiment; Fig. 4b shows a vertical cross-section of mat Iocking strip integral with a mat that forms an angle to ridges of the mat Iocking strip according to an embodiment; Fig. 5a is a top-down view of a mat comprising a mat Iocking strip according to an embodiment; Fig. 5b is a zoomed-in view of the corner of the mat of Fig. 5a; Fig. 6 is a top-down view of a mat system comprising a joining member according to an embodiment; Fig. 7a shows a vertical cross-section of two mat Iocking strips connecting with a joining member according to an embodiment; Fig. 7b shows a vertical cross-section of two mat Iocking strips connecting with a joining member according to an embodiment; Fig. 8a shows a vertical cross-section of a mat Iocking strip with a folding line according to an embodiment; and Fig. 8b shows a vertical cross-section of two connecting mat Iocking strips where one is folded according to an embodiment. 11 Detailed Description Embodiments of the invention will now be described with reference to the accompanying drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. The terminology used in the detailed description of the particular embodiments illustrated in the accompanying drawings is not intended to be limiting of the invention. ln the drawings, like numbers refer to like elements.

Starting in Fig. 1a, a vertical cross-section ofa longitudinally extending mat locking strip 20 is shown. The mat locking strip 20 has an inherent, non-disclosed length as a direct consequence of its longitudinal extension, but also a width W and a thickness T. Unless nothing else is explicitly given below, the geometry of the mat locking strip 20 will be described based on its cross section as seen transverse to the longitudinal extension.lt is however to be understood that the mat locking strip 20 with remained function may be rotated freely during use.

The mat locking strip 20 is suitable for being attached to an edge portion of a mat and for interconnecting a plurality of mats into a mat system.

The mat locking strip 20 comprises a horizontally extending body 30 with a top side 31 and a bottom side 32. The body 30 may be formed from an elastic material such nitrile rubber and other types of rubber, however other elastic materials such as as soft plastics, e.g. PVC are also possible. ln other words, the elastic modulus (Young's modulus) of the material is relatively low, such as 1-5000 MPa. Thereby, the elasticity of the body 30 allows for the mat locking strip 20 to remain flexibly attached to another mat locking strip 20 despite external forces.

The top side 31 of the body 30 is disclosed as comprising seven ridges 34, however any number of ridges 34 are possible. A relatively larger number of ridges 34 makes the mat locking strip 20 wider, which may make 12 the mat Iocking strip 20 simpler to handle and thereby make it easier to interlock two mat Iocking strips 20. lt is preferred that the number of ridges 34 is five to ten, and more preferably five to seven.

The seven of ridges 34 of the top side 31 of the body 30 defines six intermediate trenches 36. The trenches 36 are defined by the sidewalls of the adjacent ridges 34 and the top side 31 of the body 30. The top side 31 thereby comprises an alternating plurality of ridges 34 and trenches 36.

The bottom side 32 of the body 30 comprises eight ridges 34, however any number of ridges 34 are possible. The eight of ridges 34 of the bottom side 32 of the body 30 defines seven intermediate trenches 36. The trenches 36 are defined by the sidewalls of the adjacent ridges 34 and the bottom side 32 of the body 30. The bottom side 32 thereby comprises an alternating plurality of ridges 34 and trenches 36 in a similar manner as on the top side 31 of the body 30. ln the embodiment shown, the top side 31 of the body 30 has a different number of ridges 34 and trenches 36 than the bottom side 32 of the body 30. However, the top side 31 and bottom side 32 of the body 30 may have the same number of ridges 34 and trenches 36.

The mat Iocking strip 20 may be freely rotated during use such that the top side 31 of the body 30 as shown instead faces downwards and thereby becomes the bottom side 32.

The ridges 34 of the top side 31 and the bottom side 32 of the body 30 have a continuous extension along the longitudinal extension of the body 30, i.e. in a direction normal to the cross-section of Fig. 1a. As the trenches 36 of the top side 31 and the bottom side 32 respectively are defined by the ridges 34, the trenches 36 of the top side 31 and the bottom side 32 of the body 30 also have a continuous extension along the longitudinal extension of the body 30.

The ridges 34 of the top side 31 and the bottom side 32 of the body 30 may have a straight and linear extension. As the trenches 36 of the top side 31 and the bottom side 32 are defined by the ridges 34, the trenches 36 13 of the top side 31 and the bottom side 32 of the body 30 may also have a straight and linear extension.

All of the ridges 34 of the top side 31 and the bottom side 32 of the body 30 may further be identical, i.e. having the same size, shape and longitudinal extension. The trenches 36 of the top side 31 and the bottom side 32 of the body 30 may also be identical.

The ridges 34 of the top side 31 of the body 30 are arranged opposite the trenches 36 of the bottom side 32 of the body 30 and the trenches 36 of the top side 31 of the body 30 are arranged opposite the ridges 34 of the bottom side 32 of the body 30. Thereby, two mat locking strips 20 arranged on top of each other may be interconnected by the ridges 34 of the top side 31 of a lowermost mat locking strip 20 entering the trenches 36 of the bottom side 32 of a topmost mat locking strip 20, and the ridges 34 of the bottom side 32 of the topmost mat locking strip 20 entering the trenches 36 of the top side 31 of the lowermost mat locking strip 20, as shown in Fig. 1b.

The ridges 34 and trenches 36 on the top side 31 of the body 30 are complementary with the ridges 34 and trenches 36 of the bottom side 32 of the body 30. Thereby, the ridges 34 may easily be inserted into the trenches 36 and once inserted may abut each other such that a relatively large amount of friction is generated so that the ridges 34 are not accidentally extracted from the trenches 36.

The connecting pair of mat locking strips 20 may completely overlap, or a connection may be made by only inserting a subset of the available ridges into opposing trenches, as shown in Fig. 1b.

By all of the ridges 34 and trenches being identical, any ridge 34 may be inserted into any trench 36 such that a greater freedom is available when forming a connecting pair of mat locking strips 20.

The ridges and trenches have a rectangular cross-section as seen in the cross-section of Figs. 1a-b. Thereby, complementary shapes are easily achieved, and all interface surfaces are separated by 90 degrees and may be perpendicular to the horizontal floor surface. External forces may usually be exerted perpendicular to the floor surface, thereby interface surfaces in this direction may be more impactful. 14 The plurality of ridges 34 may be formed from the same material as the body 30. Thereby, the elasticity of the ridges 34, and therby also the trenches 36, allows for a connecting pair of mat locking strips 20 to remain connected despite external forces.

The material of the ridges 34 may further have a relatively high friction coefficient against the floor, i.e. above 0.3 or above 0.5. Thereby, the ridges 34 on the bottom side 32 of the body 30 may prevent the mat locking strip 20 from sliding along the floor surface as a result from external forces. Additionally, a high friction between the ridges 34 and trenches 36 may allow for a connecting pair of mat locking strips 20 to remain unmoved despite an external force in the direction of the longitudinal extension of the ridges 34.

The body 30 may be formed e.g. using injection molding or extrusion. The ridges 34, and thereby also the trenches 36, may be formed simultaneous with the body 30 or be shaped from a precursor of the body 30 after it has been formed. ln the latter case, the body 30 may be formed with a thickness of roughly three times its intended size and then pressed to the intended shape of the mat locking strip 20.

Fig. 2a shows a cross-section of a mat locking strip 20 according to an embodiment as seen transverse to the longitudinal extension of the mat locking strip 20. The mat locking strip 20 is attached to an edge portion of a mat 10 comprising a rubber bottom portion and a mat surface comprising rubber, textiles e.g. cotton and/or synthetic fibre e.g. nylone or polyester. The body 30 of the mat locking strip 20 extends longitudinally along the edge of the mat 10.

The rubber bottom portion of the mat 10 may be formed by the same material as the body 30 of the mat locking strip 20 and may be formed in the same process as the body 30 of the mat locking strip 20.

The figures are schematically drawn and the mat locking strip 20 in Fig. 2a may thereby have a much thinner trickness than shown, e.g. having a total thickness roughly similar to the rubber bottom poriton of the mat 10, which in itself may have a much thinner vertical extension (e.g. less than half as thick) than the mat surface of the mat 10. For example, a mat may have a total height of 11-15 mm wherein the rubber bottom portion is 1.5-1.7 mm thiok.

The thiokness of the mat looking strip may be 3-5 mm thiok, or more preferably 4 mm. The total thiokness of a oonneoting pair of mat looking strips 20 may be thinner than the mat 10, whioh reduoes a risk of tripping on the mat looking strips 20. The total height of a oonneoting pair of mat looking strips 20 may be 5-10 mm or more preferably 7 mm and the height of the mat 10 may be 10-12 mm. The mat looking strip 20 may extend 20-25 mm from the edge of the mat 10.

The top side 31 of the body 30 oomprises a top stopping member 37 having an extension along the longitudinal extension of the body 30. The top stopping member 37 is arranged along a first end of the body 30, i.e. the end arranged olosest to the mat 10. ln a oonneoting pair as shown in Fig. 2b, the top stopping member 37 of the bottom mat looking strip 20 is oonfigured to keep the seoond end of the body 30, i.e. the end arranged farthest away from the mat 10, of the top mat looking strip 20 from slipping.

As shown in Fig. 2b, a oonneoting pair of mat looking strips 20 oomprising the top stopping member 37 enables the top mat looking strip 20 to be prevented from slipping to the right as a result of external foroes.

The top stopping member 37 has a height 110 exoeeding a oombined thiokness 120 of the body 30 and a ridge 34 on the bottom side 32 of the body 30.

As shown in Fig. 2b, the height of the top stopping member 37 allows a sidewall of the top stopping member 37 to extend along adjaoent sidewalls of both the ridge 34 and the body 30 of the top mat looking strip 20. Thereby, an interfaoe between the top stopping member 37 of the bottom mat looking strip 20 and the top mat looking strip 20 may be maximized. Furthermore, no end surfaoe of the top mat looking strip 20 is left unoovered by the top stopping member 37 of the bottom mat looking strip 20.

The top of the top stopping member 37 may be slanted. This may prevent feet of users from getting stuok while still maintaining a desired height of the top stopping member 37. Furthermore, suoh a slant may allow a 16 wheeled load, such as a shopping cart, to be easily moved along the mat locking strip 20.

The top stopping member 37 may further guide a user to align two mat locking strips 20 such that they connect together.

The bottom side 32 of the body 30 comprises a bottom stopping member 38 having an extension along the longitudinal extension of the body 30. The bottom stopping member 38 is arranged along the first end of the body 30. ln a connecting pair as shown in Fig. 2b, the bottom stopping member 38 of the top mat locking strip 20 is configured to keep the second end of the body 30 of the bottom mat locking strip 20 from slipping.

As shown in Fig. 2b, a connecting pair of mat locking strips 20 comprising the bottom stopping member 38 enables the bottom mat locking strip 20 to be prevented from slipping to the left as a result of external forces.

The bottom stopping member 38 has a height 130 extending beyond the height 140 of a ridge 34 on the bottom side 32 of the body 30.

As shown in Fig. 2b, the height of the bottom stopping member 38 allows it to extend beyond the adjacent ridge 34 of the bottom side 32 of the body 30 to provide an abutting surface for the body 30 of the bottom mat locking strip 20 to prevent external forces from causing it to slip.

The bottom stopping member 38 may have a greater height 130, e.g. extending along the entire adjacent sidewalls of both the ridge 34 and the body 30 of the bottom mat locking strip 20 as shown in Fig. 2b. However, a smaller interface between the bottom stopping member 38 and the bottom mat locking strip 20 may be preferred compared to at the interface between the top stopping member 37 and the top mat locking strip 20 as the bottom mat locking strip 20 may further be supported by the floor.

Fig. 3a shows a cross-section of a mat locking strip 20 as seen transverse to the longitudinal extension of the mat locking strip 20. The mat locking strip 20 comprises a folding line having an extension along the longitudinal extension of the body 30. The folding line is shown in the figures as a dashed line, with the folding point noted as a cog in the figures. 17 The folding line allows the mat locking strip 20 to be folded along itself, e.g. as shown as the topmost mat locking strip 20 in Fig. 3b. The folding line allows the mat locking strip 20 to be selectably connected with another mat locking strip 20 such that the connected mat locking strips 20 are below the mat 10 and thereby not visible.

The bottom side may have much smaller ridges 34 than the top side, as they are not used when the folding line is used as in Fig. 3b. Thereby, the total height of the connecting mat locking strips 20 may be reduced. lt may be worth to reiterate that the figures are merely schematic and the height difference between the mats of Fig. 3b may not be as large in reality.

The mat locking strip 20 of Fig. 4a comprises a mounting member 39 having an extension along the longitudinal extension of the body 30. The mounting member 39 is adjacent the first side of the locking strip 20 and configured to extend towards the mat 10.

The mounting member 39 allows the mat locking strip 20 to be selectively and optionally removably attachable to the mat 10. The mounting member 39 may be integrally formed with the mat locking strip 20 and may be attached to the mat 10 using fastening means such as adhesive bonding, welding, cold vulcanization, snap fasteners or staples. The mounting member 39 may further be attached during the bonding of the mat 10 itself as the rubber bottom of the mat 10 is attached to the surface fabric of the mat 10.

The mounting member 39 allows the mat locking strip 20 to be retro- fitted to any mat 10 to simply incorporate the teachings and advantages of the present disclosure to an existing mat 10 and allow such a mat 10 to be connectable to a mat 10 formed integral with the mat locking strip 20. Furthermore, a damaged mat locking strip 20 may be replaced by a mat locking strip 20 comprising a mounting member 39 by attaching the mounting member 39 to the damaged portion of the mat 10.

The mounting member 39 may be formed by the same material as the body 30 of the mat locking strip 20. The mounting member 39 may be formed e.g. using injection molding or extrusion.

A major geometrical plane extending across the longitudinal extension of a bottom side of the mounting member 39 forms an angle oi to a 18 major geometrical plane extending across a top surface of a ridge 34 of the bottom side 32 of the body 30.These major geometrical planes are shown in Fig. 4a as dotted lines. The angling may be achieved by forming the mounting member 39 at an angle oi compared to the body 30, with a slant for connecting to the mat 10 or by biasing the elastic material of the mounting member 39 and/or the body 30.

The angle formed, as shown in Fig. 4a, may be 5-30°, more preferably 5-15°, or even more preferably 10°.

The mat locking strip 20 of Fig. 4b is formed integral with the mat 10. A major geometrical plane extending along a top surface of a ridge 34 of the bottom side 32 of the body 30 forms an angle ß to a major geometrical plane extending along the bottom side 32 of the mat 10.

These major geometrical planes are shown in Fig. 4b as dotted lines. The angling may be achieved by forming the body 30 of the mat locking strip 20 at an angle compared to the mat 10 or by biasing the elastic material of the base of the mat 10 and/or the body 30.

The angle formed, as shown in Fig. 4b, may be 5-30°, or more preferably 5-15°.

Fig. 5a shows a top-down view of a mat 10 comprising mat locking strips 20 of the type described above. Each side edge portion of the mat 10 comprises a mat locking strip 20.

Prior art mats may be formed with rubber edge portions. The mat 10 as shown has instead replaced these rubber edge portions with mat locking strips 20 with additional functionality.

The mat locking strips 20 are configured to interconnect a plurality of such mats 10 while protruding away from the side edge portions of the mats 10 and forming a connecting strip between the mats 10.

The interconnected adjacent mats 10 share an edge and the respective mat locking strips 20 of the shared edge form a connecting pair extending between the adjacent mats 10.

Fig. 5b shows a zoomed-in view of the corner of the mat 10 of Fig. 5a. The ridges 34 and trenches 36 of the two mat locking strips 20 of the two edges of the corner are shown. The ridges 34 and trenches 36 have a 19 continuous extension along the longitudinal extension of each edge of the mat 10.

The mat locking strips 20 of the two edges of the corner extend beyond the edge of the mat 10. Thereby, the ridges 34 and trenches 36 of the two mat locking strips 20 extend into each other and form a cross-pattern as shown.

By constructing the cross-pattern with non-continuous ridges, the corner portion of the mat locking strips 20 may be connected to another mat locking strip 20 in either direction.

Alternatively, the ridges 34 of the mat locking strip 20 of one edge may extend into the corner. This way, another mat locking strip 20 may only connect in one direction at the corner, however this may be easier to manufacture. lt is beneficial to have at least a body 30 of a mat locking strip 20 at all corners where two mat locking strips 20 meet. This is because otherwise an edge of the mat locking strip 20 may be accidentally accessible that may cause two connecting mat locking strips 20 to be dislodged from each other. lt is more likely to connect the short edges of rectangular mats 10, thereby any mat locking strip 20 on the short edges of a rectangular mat 10 that shares a corner with another mat locking strip 20 preferably extends into that corner. Thereby, more contact surface is available for the mat locking strip 20 of the short edges.

Fig. 6 is a top-down view of a mat system 100 comprising five mats 10. Each mat 10 of the mat system 100 comprises mat locking strips 20 as previously described in relation to Fig. 2a arranged along side edge portions of the mats 10. The plurality of mats 10 is configured to be interconnected by the ridges 34 of the top side 31 of the body 30 of the locking strip 20 of a first mat 10 engaging with the trenches 36 of the bottom side 32 of the body 30 of the locking strip 20 of a second mat 10.

The continuous extension of the ridges 34 of the mat locking strips 20 allow the mats 10 of the mat system 100 to be interconnected anywhere along the edge portion of a mat 10. For example, the mat 10 in the right middle of Fig. 6 is longitudinally aligned with another identical mat 10 above.

The respective mat Iocking strips 20 connect with each other along the entire Iongitudinal extension of each mat Iocking strip 20. The mat 10 in the right middle of Fig. 6 is also being connected to a smaller mat 10 below, slightly longitudinally off-centered. Thereby, the respective mat Iocking strips connect with each other only along a sub-portion the entire longitudinal extension of each mat Iocking strip 20.

By connecting several individual mats 10 into a mat system 100 accordingly, the effect of a single large mat may be achieved using several smaller, more practical mats 10. Futher, the connected mats 10 give each other stability against external forces that may otherwise cause them to move, e.g. by the weight and size of the connected mats 10 as compared to an individual mat 10.

By connecting several adjacent mats 10 along different edges of the same mat 10, that mat 10 may gain stability from these connections in different directions, further increasing the robustness of the mat system 100.

External forces focused in a single direction may be more common than others, for example near an entrance. These focused forces may cause extra strain on connections or cause the entire mat system 100 to move in a single direction. This may be compensated for by the mat system 100 comprising mats 10 connected along different directions. lt may further be beneficial to extend the mat system 100 beyond where external forces are focused to introduce different forces.

The mat system 100 disclosed in Fig. 6 further comprises a joining member 40 connected to four of the mats 10 or the system 100. The joining member 40 connects the two otherwise separate mat systems 100 to the left and right in Fig. 6 into a single mat system 100.

The joining member 40 of Fig. 6 comprises two mat Iocking strips extending to the left and right, respectively. Each of the mat Iocking strips of the joining member 40 is connected to two mat Iocking strips 20, each belonging to different mats 10, which edges are aligned with each other. ln a similar manner, mat Iocking strips 20 of the mats 10 may also connect to two or more mat Iocking strips 20, each belonging to different mats 10, if their edges are aligned. 21 ln the mat system 100 of Fig. 6, such alignment may for example be achieved by shifting the bottommost mat 10 of Fig. 6 to the left such that its top edge abuts two aligned mats 10. Of course, this connection would be interrupted if the then overiapped corners of the two aligned mats 10 comprise only vertical ridges in the direction of the figure as this would disallow connection at these positions and significantly weaken the connection of the two mat locking strips 20 adjacent to the corner.

For example, the overiapped corners of the two aligned mats 10 may instead be empty as shown, or more preferably the corners comprise horizontal ridges in the direction of the figure or even more preferably the corners comprise a cross-pattern that allows either connection direction.

Further details of the joining member 40 are discussed in relation to Figs. 7a-b. Figs. 7a-b are cross-sectional views of a mat system 100 comprising two mats 10 and a joining member 40.

Figs. 7a-b show two different embodiments of the joining member 40. Fig. 7a shows an embodiment of the joining member 40 where two mat locking strips 20 may be connected to the joining member 40 such that the joining member 40 becomes hidden from view. ln order to do so, the two mat locking strips 20 of the mats 10 abut in a designated middle trench of the joining member 40 with space for two adjacent ridges 34.

Depending on the specific implementation of the mat locking strips 20, the two mat locking strips 20 of the mats 10 may instead abut at a designated middle ridge of the joining member 40 that requires the space of two adjacent trenches 36.

The joining member 40 allows both the mat locking strips 20 connected to the joining member 40 to have the same vertical alignment, i.e. neither being on top of the other. This may allow for a thinner connection with less sudden thickness differences, which may be simpler to walk or roll over.

Fig. 7b shows an embodiment of the joining member 40 where the joining member 40 may act as a mat in its own right. The middle portion of the joining member 40 comprises a mat surface on top of the body of the joining member 40, from which ridges and trenches extend to connect with the ridges 34 and trenches 36 of the mat locking strips 20. The mat locking strips 20 22 may be arranged to connect with the joining member 40 such that the second ends of each of the mat Iocking strips 20 abut the mat surface portion of the joining member 40 to act as a stopping member.

The joining members 40 shown in Figs. 7a-b comprise Iocking strips with ridges and trenches along a top side arranged to connect with the bottom side of the bodies 30 of the mat Iocking strips 20. ln alternative embodiments, the joining members 40 comprise Iocking strips with ridges and trenches along a bottom side arranged to connect with the top side of the bodies 30 of the mat Iocking strips 20. This may allow for the connecting Iocking strips to be completely hidden from view. The joining member 40 may further have mat surface on top of the comprised body and Iocking strips to create a visual effect of all mats 10 of the mat system 100 being a single mat. ln further alternative embodiments, the joining members 40 comprise Iocking strips as the mat Iocking strips 20, i.e. comprising ridges and trenches on both the top side and bottom side of the body. This allows for more flexibility when connecting the different units of the mat system 100.

Fig. 8a shows a vertical cross-section of a mat Iocking strip 120 for being attached to an edge portion of a mat 10 and for interconnecting a plurality of mats 10 according to an embodiment.

The Iocking strip 120 comprises: a longitudinally extending body 130 having a top side 131 and a bottom side 132, wherein the top side 131 comprises a plurality of protruding ridges 134 defining intermediate trenches 136, the ridges 134 having a continuous extension along the longitudinal extension of the body 130; the body 130 having a first end configured to be arranged closest to the mat 10, the first end comprising a folding line having an extension along the longitudinal extension of the body 130; the mat Iocking strip 120 being configured to connect to another mat Iocking strip 120 when a first of the two mat Iocking strips 120 is folded such that the top side 131 of the body 130 of the first mat Iocking strip 120 faces the same direction of the bottom side 132 of the body 130 of the second mat Iocking strip 120 and the ridges 134 and trenches 136 of the first and second mat Iocking strips 120 23 face each other; and the mat Iocking strip 120 further being configured to connect to the mat Iocking strip 20 as previously disclosed.

Fig. 8b shows two mat Iocking strips 120 attaching to each other. A first of the mat Iocking strips 120 is folded along the folding line as shown and the other is not. The previous top side 131 of the body 130 of the first mat Iocking strip 120 is thereby now a bottom side 132. The first mat Iocking strip 120 therefore comprises ridges 134 and trenches 136 on a bottom side 132 of the body 130 and the second mat Iocking strip 120 therefore comprises ridges 134 and trenches 136 on a top side 131 of the body 130. Thereby, the two mat Iocking strips 120 may be selectably connected with one another.

The second mat Iocking strip 120 further comprises a top stopping member 137. This has corresponding advantages as the top stopping member 37 previously discussed in relation to Figs. 2a-b.

Many modifications and other embodiments of the inventions set forth herein will come to mind to one skilled in the art to which these inventions pertain having the benefit of the teachings presented in the foregoing descriptions and the associated drawings. Therefore, it is to be understood that the inventions are not to be limited to the specific embodiments disclosed and that modifications and other embodiments are intended to be included within the scope of the appended claims. Moreover, although the foregoing descriptions and the associated drawings describe exemplary embodiments in the context of certain exemplary combinations of elements and/or functions, it should be appreciated that different combinations of elements and/or functions may be provided by alternative embodiments without departing from the scope of the appended claims. ln this regard, for example, different combinations of elements and/or functions than those explicitly described above are also contemplated as may be set forth in some of the appended claims. ln cases where advantages, benefits or solutions to problems are described herein, it should be appreciated that such advantages, benefits and/or solutions may be applicable to some example embodiments, but not necessarily all example embodiments. Thus, any advantages, benefits or solutions described herein should not be thought of as being critical, required or essential to all embodiments or to that which is 24 claimed herein. Although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of Iimitation.

Claims (16)

1. 1. A mat Iocking strip (20) for being attached to an edge portion of a mat (10)and for interconnecting a plurality of mats (10), the Iocking strip (20)comprising: a Iongitudinally extending body (30) having a top side (31) and abottom side (32), each side (31, 32) comprising a plurality of protruding ridges(34) defining intermediate trenches (36), the ridges (34) having a continuousextension along the Iongitudinal extension of the body (30); the body (30) having a first end configured to be arranged closest tothe mat (10) and a second end configured to be arranged farthest away fromthe mat (10); wherein the ridges (34) of the top side (31) of the body (30) arearranged opposite the trenches (36) of the bottom side (32) of the body (30),and the trenches (36) of the top side (31) of the body (30) are arrangedopposite the ridges (34) of the bottom side (32) of the body (30).

2. A mat Iocking strip according to c|aim 1, wherein the ridges (34) andtrenches (36) on the top side (31) of the body (30) are comp|ementary withthe ridges (34) and trenches (36) on the bottom side (32) of the body (30).

3. A mat Iocking strip according to c|aim 1 or 2, wherein the top side (31) ofthe body (30) further comprises a top stopping member (37) having anextension along the Iongitudinal extension of the body (30);the top stopping member (37) being arranged along the first end of the body (30) and having a height exceeding a combined thickness of the body(30) and a ridge (34) on the bottom side (32) of the body (30) at the secondend of the body (30).

4. A mat Iocking strip according to any one of the preceding claims, whereinthe bottom side (32) of the body (30) further comprises a bottom stoppingmember (38) having an extension along the Iongitudinal extension of the body(30);the bottom stopping member (38) being arranged along the first end ofthe body (30) and extending beyond the height of a ridge (34) on the bottomside (32) of the body (30).

5. A mat Iocking strip according to any one of the preceding claims, whereinthe ridges (34) and/or the trenches (36) have a rectangular cross-section asseen in a direction transverse to the |ongitudina| extension of the body (30).

6. A mat Iocking strip according to any one of the preceding claims, furthercomprising a folding line having an extension along the |ongitudina| extensionof the body (30).

7. A mat Iocking strip according to any one of the preceding claims, furthercomprising a mounting member (39) having an extension along the|ongitudina| extension of the body (30) and adjacent the first side of theIocking strip (20), the mounting member (39) being configured to extendtowards the mat (10).

8. A mat Iocking strip according to claim 7, wherein a major geometrical planeextending across the |ongitudina| extension of a bottom side of the mountingmember (39) forms an angle to a major geometrical plane extending across atop surface of a ridge (34) of the bottom side (32) of the body (30).

9. A mat Iocking strip (120) for being attached to an edge portion of a mat (10)and for interconnecting a plurality of mats (10), the Iocking strip (120)comprising: a longitudinally extending body (130) having a top side (131) and abottom side (132), wherein the top side (131) comprises a plurality ofprotruding ridges (134) defining intermediate trenches (136), the ridges (134)having a continuous extension along the |ongitudina| extension of the body(130);the body (130) having a first end configured to be arranged closest tothe mat (10), the first end comprising a folding line having an extension alongthe Iongitudinal extension of the body (130); the mat Iocking strip (120) being configured to connect to another matIocking strip (120) when a first of the two mat Iocking strips (120) is fo|dedsuch that the top side (131) of the body (130) of the first mat Iocking strip(120) faces the same direction of the bottom side (132) of the body (130) ofthe second mat Iocking strip (120) and the ridges (134) and trenches (136) ofthe first and second mat Iocking strips (120) face each other; and the mat Iocking strip (120) further being configured to connect to themat Iocking strip (20) according to any one of the preceding claims.

10. A mat system (100) comprising a p|ura|ity of mats (10), each mat (10)comprising a mat Iocking strip (20, 120) according to any one of the precedingclaims arranged along a side edge portion of the mat (10); and wherein the p|ura|ity of mats (10) is configured to be interconnected bythe ridges (34, 134) of the top side (31, 131) of the body (30, 130) of theIocking strip (20, 120) ofa first mat (10) engaging with the trenches (36, 136)of the bottom side (32, 132) of the body (30, 130) of the Iocking strip (20, 120)of a second mat (10).

11. A mat system according to claim 10, wherein each side edge portion ofeach mat (10) comprises a Iocking strip (20, 120).

12. A mat system according to claim 10 or 11, wherein the Iocking strips (20,120) are integral with the mats (10); or wherein the Iocking strips (20, 120) aremounted to the mats (10).

13. A mat system according to any one of the claims 10-12, wherein a majorgeometrical plane extending along a top surface of a ridge (34) of the bottomside (32) of the body (30) of a Iocking strip (20) forms an angle to a majorgeometrical plane extending along the bottom side (32) of the mats (10).

14. A mat system according to any one of the claims 10-13, wherein theIocking strips (20) are configured to interconnect the mats (10) whileprotruding away from the side edge portions of the mats (10) and forming aconnecting strip between the mats (10).

15. A mat system according to any one of the claims 10-14, furthercomprising a joining member (40) comprising at least two Iocking stripsarranged along at least two side edge portions of the joining member (40), theIocking strips of the joining member (40) being configured to interconnect twospatially separated mats (10) by the ridges (34, 134) of the top side (31, 131)of the body (30, 130) of a Iocking strip (20, 120) of the mats (10) engagingwith trenches of a bottom side of a body of the Iocking strips of the joiningmember (40).

16. A mat system according to ciaim 15, wherein the Iocking strips of thejoining member (40) are the Iocking strips (20) according to any one of the claims 1-8.