This invention relates generally to floor coverings and mats of the type which have a pile surface on the upper side and a backing layer on the lower side. In particular the invention relates to rubber-backed floor mats such as dust control mats or decorative mats of the type which have a rubber or rubber-like material on the lower side. Mats of this type are generally used in access ways where people tend to brush or scrape their feet in order to prevent carrying of moisture and/or dirt, accumulated on their footwear, into other areas of the premises. Normally these mats are located in areas of high pedestrian traffic, such as doorways.
It is desirable for such mats to have a clearly delineated border, so that users of the mats have a clear visual indication of the edge of the mat. The border also serves to act as a frame to the decoration on the mat, particularly in the cases where mats are provided with a pattern in the form of a logo or advertising. Known mats are formed with a backing layer which has a larger area than the pile layer, so that the backing layer extends beyond the pile layer on each of the four sides, forming a contrasting border which does not have a pile applied to it. It is a disadvantage of such mats that they must be manufactured individually. The backing layer must be trimmed to provide a uniform border all the way around the area of pile. It is a further disadvantage that the border area is effectively a wasted area, since it does not have a pile fabric upon it and can serve no purpose in brushing or cleaning the footwear of users.
Therefore, it is an object of this invention to provide a mat that has a visually recognizable border, but which has improved cleaning characteristics and can be manufactured without additional trimming of the backing layer.
In accordance with a first aspect of the invention there is provided a mat comprising a pile surface fabric and a rubber or rubber-like backing material connected to said pile surface fabric, wherein both the pile surface fabric and the backing material extend to the edge of the mat, and wherein the pile surface fabric is provided with a border portion having on its upper surface a contrasting colour and/or texture to the remainder of the pile surface fabric and extending along at least a portion of the edge of said pile surface fabric.
It is to be understood that the edge of the mat may comprise a plurality of straight edges or one or more curved edges or a combination of one or more straight edges and one or more curved edges. The edge of the mat is understood to be the side surface of the mat which extends around the perimeter of the mat and connects the upper and lower surfaces of the mat.
It is to be understood that a rubber-like backing material can include a substantially impervious flexible sheet material such as natural or artificial rubber, latex, polyethylene, polyester, polypropylene and polyamide. Preferably the backing material is a solid sheet.
Preferably the border portion of the pile surface fabric extends along the entire perimeter of the pile surface fabric.
Preferably the edge of the mat comprises a cut edge, whereby the cut edge is the result of a single cutting operation through the pile surface fabric and the backing material.
Preferably the backing material is vulcanised to the pile surface fabric.
In the case where the border portion has on its upper surface a contrasting colour, the border portion may comprise a printed portion of the pile surface fabric. Alternatively the border portion may comprise a portion of the pile surface fabric produced using pre-dyed yarns. Alternatively the border portion may comprise a portion of the pile surface fabric produced by selective melting of the yarns in the pile surface fabric. Alternatively the border portion may comprise a portion of the pile surface fabric screened from a printing or dyeing process applied to the remainder of the pile surface fabric by selective application of a liquid repellent to the border portion.
In the case where the border portion has on its upper surface a contrasting texture, the border portion may comprise a portion of the pile surface fabric having reduced pile height produced by selective melting, mechanical carving or chemical treatment of the yarns in the pile surface fabric.
In accordance with a second aspect of the invention there is provided a method for manufacturing a mat comprising a pile surface fabric and a rubber or rubber-like backing material connected to said pile surface fabric, comprising the steps of:
Preferably the pile surface fabric has longitudinal and transverse elongate areas of contrasting surface colour and/or texture forming a grid on the pile surface fabric. Preferably the pile surface fabric and backing material are cut along two longitudinal and two transverse elongate areas to form a substantially rectangular mat.
Preferably the bonding step is achieved by vulcanization of the rubber backing layer to the fabric.
In a preferred embodiment the method includes the step of using a visual scanning means, such as a sensor array or a camera, to scan the pile surface fabric and identify the position of the elongate areas. Alternatively the method includes the step of using a mechanical guide sensor, to identify the position of the elongate areas in the case when the elongate areas are sculpted or carved, by physically sensing the change in height of the pile surface fabric.
Preferably the method also includes the step of using an electronic control means to guide a cutting means to cut through the pile surface fabric and backing material along a cutting line having a predefined position with respect to the position of the elongate area. Preferably the cutting line is predefined as corresponding to the centre line of the elongate area.
In a first preferred embodiment the areas of contrasting surface colour and/or texture are areas of contrasting surface colour. The areas of contrasting colour may be achieved by the step of printing or dyeing the pile surface fabric, either before or after the bonding step. Alternatively the areas of contrasting colour may be achieved by forming the pile surface fabric with areas which comprise pre-dyed yarns.
Alternatively the areas of contrasting colour may be achieved by the step of selective application of heat on the pile surface fabric, wherein the fabric comprises a blend of fibers of polymers having different melting points, either before or after the bonding step. A suitable method of selective application of heat is described in U.S. Pat. No. 5,865,933.
Alternatively the areas of contrasting colour may be achieved by the step of selective application of chemicals containing a liquid repellent on the pile surface fabric, wherein the fabric is subsequently rewetted by the application of liquid and subject to heat treatment to carve the areas to which liquid repellent has been applied, either before or after the bonding step. A suitable method of selective application of liquid repellent and heat treatment is described in U.S. Pat. No. 5,861,044.
Alternatively the areas of contrasting colour may be achieved by the step of selective application of chemicals to carve the upper surface of the pile surface fabric and reveal a lower portion of the pile surface fabric having a contrasting colour to the colour of the fibers at the upper surface of the pile surface fabric.
In a second preferred embodiment the areas of contrasting surface colour and/or texture are areas of contrasting surface texture. The areas of contrasting texture may be achieved by the step of selectively carving areas of the pile surface fabric, either before or after the bonding step. The carving may be carried out by acid carving, mechanical carving or shearing.
The carving may be carried out by applying a degrading agent to the pile fibers in the area to be carved, heating the pile fabric to cause degradation of the pile fibers and mechanically removing the degraded fibers. Suitable methods of degrading the fibers are described in U.S. Pat. Nos. 4,415,331 and 4,353,706.
Alternatively the carving may be carried out by the step of selective application of chemicals containing a liquid repellent on the pile surface fabric, wherein the fabric is subsequently rewetted by the application of liquid and subject to heat treatment to carve the areas to which liquid repellent has been applied, either before or after the bonding step. A suitable method of selective application of liquid repellent and heat treatment is described in U.S. Pat. No. 5,861,044.
Other objects and advantages of the invention will become readily apparent from the following description of the invention with reference to the accompanying drawings, in which:
Referring to FIGS. 1 to 3 there is shown a prior art dust control mat 1 comprising a rubber backing sheet 2 onto which is bonded a pile surface fabric layer 3. The backing sheet 2 projects on each side beyond the pile layer 3 to form a border 4. Manufacture of prior art mats is as follows. First the mat pile is manufactured in a continuous length on a tufting machine and is then passed through a dyeing machine to colour the mat pile. The continuous coloured pile is then cut to size to form the individual pile surface fabric layers 3. The rubber backing layer is fed from a continuous roll to a cutting station where it is cut to size to form individual rubber backing sheets 2. Each mat is assembled by placing a pile surface fabric layer 3 centrally on a rubber backing sheet 2 and feeding the assembled mat through a vulcanizing machine to bond the fabric 3 to the backing sheet 2. The edges may be further trimmed to complete the mat manufacture.
As shown in
It should be noted that the combination of tufts 14 and substrate 16 may be replaced by single pile fabric layer (not shown) if required. The single pile fabric layer is bonded directly to the rubber backing layer 20 by vulcanization.
The contrasting colour of the border 22 may be achieved in any suitable manner. For example, the border may be printed with a dye, or the border may be made using yarn of a different colour to the yarn used in the central area 24.
A preferred method of forming the border with a contrasting colour is the carving method described in U.S. Pat. No. 5,865,933. The pile fabric 40 is formed of a blend of fibers of two different polymers. The first polymer has a first colour, while the second polymer has a second colour. The melting point of the first fibers exceeds that of the second fibers. When heat is applied to the area of the pile fabric 40 which will form the border 22, to a temperature which exceeds the melting point of the second fibers but does not exceed that of the first fibers, the second fibers melt away, leaving the colour of the first fibers dominating. In the remaining areas 24 in which heat is not applied, the resulting colour is a blend of the first and second colours. The heat may of course instead be applied only to the area 24 which will not form the border 22, to reverse the colours.
A further method of carving the border area 22 is the carving method described in U.S. Pat. No. 5,861,044. Chemicals containing a liquid repellent either alone or with other chemicals such as dye are applied to the areas of the pile fabric 40 which will form the border 22. The entire pile fabric 40 is then rewetted by the application of liquid. The printed area 22 containing repellent remains dry and the areas 24 without repellent are wetted out. The pile fabric 40 is then subjected to pressurized heated gas which selectively carves the dry areas 22 leaving the wetted areas protected and uncarved. The repellent may of course instead be applied only to the area 24 which will not form the border 22, to reverse the carving and/or dyeing.
The individual mats are then produced by cutting along longitudinal 36 and transverse 38 cut lines by any suitable cutting means. Preferably the sheet 30 is transported to a scanning and cutting station, where a visual scanning means such as a scanning array sensor 52 is used to recognize the longitudinal and transverse strips 32 and 34 and to guide a cutting apparatus, such as a laser cutter (not shown) or a cutting blade 50, along the cut lines 36 and 38 whose positions are calculated by an electronic control means (eg microprocessor, not shown) based on the measured position of the strips 32 and 34. Alternatively a mechanical guide sensor can be used to identify the position of the strips 32, 34 when the strips are sculpted or carved, by physically sensing the change in height of the pile surface fabric. Such scanning and cutting apparatus is known in the art and is not described further here.
The electronic control means guides the cutting means 52 to cut through the pile surface fabric 40 and backing material 20 along a cutting line 36, 38 which has a predefined position with respect to the position of the strips 32, 34. The cutting line 36, 38 may be predefined as corresponding to the centre line of the strip 32, 34, or may be predefined as being a predetermined distance from the edge of the strip 32, 34. Each cut line 36, 38 corresponds to a portion of an edge of at least one mat 10.
Preferably the bonding of the pile layer 40 and backing layer 20 to form a single bonded sheet 30, the printing and/or carving of the border strips 32, 34 and the cutting of the single bonded sheet 30 along the cut lines 36, 38 to form a plurality of individual mats 10 takes place as a continuous process, with the pile layer 40 and backing layer 20 fed from a roll or rolls at a first end of the production line and the individual mats stacked or rolled at a second end of the production line.
The mats produced according to the invention have flush edges, with the pile yarns 14 extending to the edge of the mat 10, giving rise to several advantages. The colours of both the border 22 and the main body 24 of the mat may be selected to suit the customer's requirements. The mats are produced in a single cutting operation, instead of the several separate cutting and fixing operations of the prior art, making them economical to produce. The mats serve to clean footwear over their entire area, since even the borders are provided with a pile fabric.
It is to be understood that the borders produced in the mat according to the invention can have a contrasting colour, a contrasting pile height or both contrasting colour and contrasting pile height when compared to the main body of the mat.
It is to be understood that the mat described above is a rectangular mat, but that the invention is not limited to rectangular mats, but includes mats of any polygonal or other shape which may be manufactured by an automated manufacturing process, for example square mats, triangular mats, hexagonal mats, circular mats, oval mats and mats having rounded or chamfered corners.
Although the preferred embodiment of the invention has been described, it is contemplated that many changes may be made without departing from the scope or spirit of the claims and it is desired that the invention be limited only by the claims.
Number | Date | Country | Kind |
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PCT/GB00/01512 | May 2000 | WO | international |
GB99/10023.2 | May 1999 | GB | national |
This application is a divisional of U.S. patent application Ser. No. 10/001,647, filed on Nov. 1, 2001, which is hereby incorporated by reference. These U.S. Patent Applications claim priority to an International Application filed under the Patent Cooperation Treaty (PCT) on May 2, 2000, and numbered PCT/GB00/01512, which had a priority application filed in Great Britain on May 1, 1999, and numbered GB99/10023.2, now abandoned.
Number | Date | Country | |
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Parent | 10001647 | Nov 2001 | US |
Child | 10958580 | Oct 2004 | US |