NZ201975A - Hot-melt adhesive bonded fabric-adhesive forced through base layer to secure pile - Google Patents

Description

1 *?' t *• 7 201975 Priority Date(s): Complete Specification Filed: Class: .7?,<rl ftti. {iff?*?.

H'fOtnM ,» • in i P.O. Journal, No: Patents form No.5 NEW ZEALAND PATENTS ACT 1953 COMPLETE SPECIFICATION "HOT MELT ADHESIVE BONDED PILE FABRICS, PROCESS AND APPARATUS FOR PRODUCING SAME" -I-fWE MILLIKEN RESEARCH CORPORATION, a cctporation organized and existing under the laws of the State of South Carolina, hereby declare the invention, for which 3-/we pray that a patent may be granted to me/us, and the method by which it is to be performed, to be particularly described in and by the following statement U.S.A. Kavi^g of et place, of n«a^ Spo»-fc»i^W*A«ig/ CocvJ , SocdK CafS**fe.s of ic.cK, (followed by page 1 A.) .patc.; WANOVi 201975 APPARATUS FOR MAKING HOT MELT ADHESIVE BONDED PILE FABRICS The present invention relates to pile fabrics. More particularly the present invention relates to a method of manufacturing hot melt adhesive bonded pile fabrics, apparatus which may be used for carrying out the method and the hot melt adhesive bonded pile fabric itself.

Pile fabrics such as carpeting may be manufactured in several ways such as by weaving, tufting, needling or bonding. In each method the pile must be secured to a base or support layer in one way or another. The present invention is particularly concerned in one aspect with a method of manufacture wherein the pile is bonded by means of a hot melt adhesive to a base layer. Such fabrics will herein be referred to variously as hot melt adhesive bonded pile fabrics, or hot melt adhesive bonded carpets.

A number of techniques are knpwn for the manufacture of bonded pile fabrics which involve the coating of a preformed base layer with a layer of an adhesive and thereafter pressing pile-forming lengths of a yarn into the adhesive to adhere pile-forming lengths to the base layer.

The prior commercial techniques for making bonded fabrics have relied very extensively on the use of PVC plastisol formulations because of the processing disadvantages thought to be associated with the use of other adhesive formulations such as hot melt systems. According to such techniques a polyvinyl chloride plastisol was applied to the base layer prior to positioning the pile-forming yarn relative to the base layer. Then the pile yarn may be positioned into contact with the base layer and —(A- 201975 \ A NOV 19^(2 the plastisol may then be fused or cured, typically by heating.

When attempts were made to substitute other adhesives, such as hot melt adhesives for the PVC plastisol in this process difficulties were encountered. Thus, for instance, with regard to hot melt adhesives, it has generally been thought that the apparatus employed for positioning the yarn may become coated with the adhesive requiring frequent shut downs of the apparatus for cleaning which is, of course, commercially unattractive.

Thus, while PVC plastisol has been the bonding agent of choice in the preparation of pile fabrics it is quite expensive, and it may tend to give off noxious gases when the product is subjected to combustion conditions. Also, while polyvinyl chloride (PVC) plastisol compositions generally may provide good "tuft lock" characteristics, that is its use results in a firm bond of the pile forming yarn to the base layer, PVC plastisols generally may not penetrate to the desired extent into the yarn bundles to effect complete adhesion of all pile yarn fibers of the pile yarn bundle to the pile fabric structure which may result in "fuzzing" of the end product, especially in carpeting end uses.

Another disadvantage typically associated with the prior art techniques for making non-tufted pile fabrics, that is fabrics where the pile yarn is not tufted through the backing but simply adhered to the backing, is that the adhesive is normally applied to the base layer on the side of the base layer facing the pile yarns, and the base layer is normally of a construction such that the adhesive will not flow through it but will substantially remain on that surface with perhaps some penetration into the base layer. Then, if it is desired to apply a backing layer, e.g., a hard back, to the back side of the pile fabric as may be desired in the r;':- -2- 201975 making of carpet tiles the backing layer must Be either adhered directly to the backing layer or an additional process step of applying adhesive to the back side of the support layer may Be necessary. In either event, there is created numerous distinct layers in the finished product, namely pile layer, adhesive layer, Base layer, another adhesive layer and a hard back layer. Such constructions may inherently have processing disadvantages and Be costly to construct. These layers may also be suBject to undesired separation during use. fabrics are provided wherein the Bonding of the pile-forming yarn to the base layer may be accomplished By means of a hot melt adhesive which is a relatively inexpensive and hence commercially attractive adhesive system, which may advantageously flow into the individual yarn bundles to effect more complete adhesion of all the fibers of the pile forming yarn to the pile fabric product. Furthermore, a process and apparatus are provided wherein the hot melt adhesive is applied to the base layer conveniently and in a manner which does not interfere with, the machinery employed for positioning the pile yarn. This step in the method may accomplish an additional function, namely that of bonding the individual pile-forming yarns to themselves typically at or near the portion of the yarns nearest the base layer, thereby providing improved performance characteristics to the pile fabric product. making a bonded pile faBric comprises means for positioning two continuous, liquid-permeable Base layers in a passage According to the present invention bonded pile An apparatus, according to the invention, for DR 201 f7S where they lie in substantially parallel relationship to one another at a predetermined distance from one another; folder blades for driving at least one continuous pile forming yarn alternatively against the opposing surfaces V of said base layers when they are at or near the entrance to the above mentioned passage in such a way as to position the at least one pile forming yarn relative to the base layers and to fold it zig-zag without tufting said at least one pile forming yarn through said base layers; means for applying to the back of said base layers an adhesive; and means for forcing said adhesive through said base layers so that said adhesive contacts said at least one pile forming yarn.

The invention also provides a method for making a hot melt adhesive bonded pile fabric which comprises: positioning two continuous, liquid-permeable base layers in a passage where they lie in substantially parallel relationship to one another at a predetermined distance from one another; driving at least one continuous pile forming yarn by folder blades alternatively against the opposing surfaces of said base layers when they are at or near the entrance to said passage in such a way as to position the pile forming yarn relative to the base layers and to fold it zig-zag without tufting said at least one yarn through said base layers; thereafter applying to the back of said base layers a hot melt adhesive; forcing said hot melt adhesive through said base layers so that said hot melt adhesive contacts said pile forming yarn; cooling said hot melt adhesive to a temperature below its softening point to dr 201975 thereby bond said pile forming yarn to said base layers; and cutting said at least one pile forming yarn to form two continuous hot melt adhesive bonded products.

The invention further provides a hot melt adhesive bonded pile fabric which comprises a liquid-permeable base layer, a pile forming yarn adjacent to but not tufted through the base layer in pile forming fashion, the pile forming yarn having been bonded to the base layer by means of a hot melt adhesive applied to the Back, of 10 said base layer and forced through the. base layer into contact with said pile forming yarn.

In a preferred form, the invention provides a carpet tile comprising a liquid-permeable Base layer, a pile forming yarn adjacent to, but not tufted through the base layer in folded, pile forming fashion, the piie forming yarn having been bonded to the base layer by means, of a hot melt adhesive applied to the back of said Base layer and forced through the base layer into contact with said pile forming yarn; said carpet tile including a backing 20 layer of thermoplastic material having been bonded to said base layer by means of said hot melt adhesive, In the invention, the adhesive is forced through the base layer, so that a one step adhesive layer application may 201975 jlboth provide a means for bonding the pile yarn to the base layer land also provide a means by which a backing layer may be integrally affixed to the base layer. The resulting product may be less complicated and costly to manufacture and may have fewer separate and distinct layers in the final product where undesired separation may occur The pile fabrics of the present invention are hot melt adhesive bonded fabrics which are comprised of a liquid-permeable base layer, a pile forming yarn adjacent to but not tufted through the base layer, in pile forming, preferably folded, faBhioiv; the pile forming yarn having been bonded to the base layer by means of a hot melt adhesive applied to the back of said base layer and forced through said base layer into contact with said pile forming yarn. Pile forming configurations may include the so-called I-tuft configuration, e.g., a non-folded configuration, U-tuft configurations, and loop pile configurations, among others. With regard to the phrase "folded, pile forming fashion," which refers to a preferred embodiment, it should be understood that what is intended is a configuration of the pile yarnB where the yarns are provided with at least one fold at the portion of the yarn generall most nearly adjacent to the base layer, e.g., a cut pile con figuration. Another "folded" configuration which iB contemplated is a loop pile configuration where the pile yarns remain uncut in the form of substantially continuous folded yarns in the final product. A variety of pile configurations both nonfolded and folded are illustrated in the attached drawing. According to the most preferred embodiment the pile yarns are cut to form a folded, cut pile product.

According to the method and apparatus of the present invention a pile forming yarn is positioned in pile^ forming fashion . ;>%'< d VL //■ -5 c\ r -' 1/ 201975 adjacent to one side of a liquid-permeable base layer. Thereafter a hot melt adhesive, heated to at least its softening point is applied to the base layer on the opposite side of the base layer from the side adjacent to tho pile forming yarn. According to the next step of the method a hot melt adhesive may be forced, either simultaneously with its application or in a separate step, through the base layer into bond forming contact with the pile forming yarn, and the adhesive is then allowed to cool, either passively or by active cooling to a temperature below its softening temperature to thereby bond the pile forming yarn to the base layer. The apparatus includes a means for applying the adhesive and forcing it through the base layer. It is to be understood that the apparatus is not limited to means for applying only a hot melt adhesive but may include other bonding compositions commonly used in the making of bonded fabrics such as, for instance, polyvinyl chloride plastisol formulations, etc.

According to a preferred embodiment of the present inventioi a method and apparatus are provided wherein two continuous, liquid-permeable base layers are positioned in a passage where they lie in substantial parallel relationship to one another at a predetermined distance from one another; at least one continuous pile forming yarn is driven by folder blades alternatively against the opposing surfaces of said base layers when they are at or near the entrance to the above mentioned passage in such a way as to position the pile forming yarn relative to the base layers and to fold it zig-zag? thereafter applying to the back of said base layers a hot melt adhesive; forcing said hot melt adhesive through said base layers so that said hot melt adhesive contacts said pile forming yarn; and cooling said hot melt adhesive to a temperature below its softening point to thereby bonct^sald Dile forming 201975 yarn to said base layers. This step in the method may accomplish an additional function, namely that of bonding the individual pile forming yarns to themselves typically at or near the portion of * the yarns nearest the base layer, thereby providing improved performance characteristics to the pile fabric product. Thereafter, the base layers may be separated from one another to form two continuous, hot melt adhesive bonded products. Typically such separation may be accomplished by means of a stationary or moving knife blade positioned between the base layers which cuts the pile yarns along the entire width of the joined base layers to provide the hot melt adhesive bonded products.

The yarn used in forming the pile may be made of any type of fiber known to be useful for fusion bonded fabrics such as carpets, for example nylon, acrylics, polyester, wool, cotton and rayon.

The hot melt adhesive compositions which may be employed according to the present invention include a wide range of hot melt adhesives which have been available for many years. Typically such compositions may have a melt viscosity of lesB than about 200,000 cps, preferably less than about 100,000 cps at 300aP. Examples include, for instance, blends of ethylene/vinyl ester copolymer, oetroleum wax and a thermoplastic resin as disclosed in U. S. Patent Number 3,551,231 fincorporated by reference). Other suitable blends which may be used include ethylene/vinyl ester copolymer, low molecular weight, low density polyethylene, micro-crystalline wax, aliphatic thermoplastic hydrocarbon resin, di-cyclopentadiene alkylation polymer, antioxidant and filler as disclosed in u. S. Patent Number 3,634,600 (incorporated by reference). Other suitable hot melt adhesives of the ethylene/ vinyl ester type which may be used are disclosed in U. S. Patent 2' 75 Numbers 3,583,936, 3,676,2B0, 3,684,600, 3,745,054, 3,723,371, 3,911,185, 3,914,489 and 4,012,547 (all incorporated by reference). Other hot melt adhesive formulations which may be employed include those of the atactic polypropylene type, in general such compositions may contain a predominant amount, e.g., from about 10 parts to about 100 parts or more, preferably from about 60 parts to 100 parts, by weight atactic polypropylene; from 0 to about 70 parts of another compatible thermoplastic material such as hydrocarbon resins, waxes, polyethylene, especially linear, low density 10 polyethylenej isotactic polypropylene, polyisobutylene and poly- butene-1. Fillers in widely varying amountB may be added to such compositions as will be readily apparent to those skilled in the art.

Other compatible thermoplastic materials which may be em-15 ployed in the adhesive formulation include ethylene/ethyl acrylate polyacetals, polyesters, polystyrene, polyacrylonitrile, polyacry lie ester, polymethacrylic ester, polyvinyl chloride, polyvinyli-dene chloride, polyvinyl acetate, polyvinyl aeetal, polyvinyl ether, polytetrafluoroethylene, polyamide, coumarone/indene resins 20 natural resins, hydrocarbon resin, bitumen and others.

The amount of hot melt adhesive applied may vary widely, based upon the particular pile yarn employed, base layer and properties desired in the pile fabric product. In general the amount employed may be from about 2 to about 200 ounces, preferably about 25 4 to about 80 ounces per square yard. Tuft binds for carpet yarns that may be achieved according to the invention may be from about 2 to about 20 pounds.

Suitable liquid-permeable base layers which may be employed in the product and process of the invention include woven fabrics/ \ - 2<M-9V5 knitted fabrics, non-woven scrims, felted materials, or even flexible, foraminous materials.

Where it is desired to provide the hot melt adhesive bonded pile fabrics of the present invention as floor covering products, especially carpet tiles, it may be desirable to apply any of a wide variety of suitable, resilient backing layers to the fabric. Such carpet tiles are also considered to be within the scope of the present invention. The backing layer may be formed, for example, from a suitable thermoplastic material such 10 as blends containing ethylene/vinyl acetate copolymers, atactic polypropylene, bitumen, hydrocarbon resins, waxes, synthetic and natural rubbers.

The backing may be bonded to the base layer by means of the same adhesive applied to the base layer to bond the pile fibers. 15 Thus, the resulting product may have fewer separate layers subject to separation than known carpet tiles. This is, rather than having pile layer, adhesive layer, base layer, another adhesive layer and backing layer, the present carpet tile may typically have a pile layer; a single, integral, hot melt adhesive layer int<j> 20 which the base layer may be disposed or suspended, and a backing layer bonded to the composite by means of the hot melt adhesive. The backing layer may be provided with at least one stiffening and stabilizing membrane, such as woven or nonwoven glass fibers.

Atfcer the backing has been applied the consolidated material may 25 then be severed by suitable cutting means into a carpet tile by any of a variety of techniques which are well-known to those skilled in the art. 201975 The resulting carpet tile product is suitable for use as a floor covering in home and/or commercial use in an office environment where substantial high stress conditions (e.g., wheeled traffic) are applied across the tiles. The tiles typically have a dense pile and may not require adhesives for installation. The individual modules may be replaced or rotated as necessary or desired. The carpet tiles may also have excellent dimensional stability with substantially no curling, slipping, buckling, stretchin or shrinking. In addition the carpet tiles may have low smoke emission and low "fuzzing" characteristics.

The invention may be further understood by reference to the drawings and accompanying description thereof. It is to be understood, however, that various changes may be made without departing from the scope or spirit of the invention which is to be limited only by the scope of the appended claims. Referring now to the drawings: Figure 1 is an elevation view of the apparatus? and Figures 2 through 4 illustrate various embodiments for forcing the adhesive through the base layer.

Figures 5 through 8 illustrate various pile forming configurations which may be employed in the hot melt adhesive bonded pile fabrics of the present invention. Figures 9 and 10 illustrat^ conventional tufted pile fabric configurations showing the pile yarns tufted through a base layer. Figure 11 illustrates a conventional I-tuft bonded fabric configuration showing a relatively impermeable base layer.

Referring now to Figure 1, carpet yarn 10 is supplied from a vam source (not shown) over and around guide rolls 12 and 14 and down to the vertical guides 16. Base layer 17 is supplied w I 301975 J from rolls 18 into position between the guides 16. As the yarn > 10 enters between the vertical guides 16 the folding blades 20 and '22 alternately displace the yarn in a zig-zag fashion into one or |the other of the base layer sheets 17 as the carpet backing is being drawn downwardly. Pivotally mounted bladelets 24 and 26 may assist in the folding of the yarn. Folding blades 20 and 22 are mounted, respectively, to connecting rods 28 and 30. Connecting rod 28 is pivotally connected to pivot shafts 32 and 34 and connecting rod 30 is pivotally connected to pivot shafts 36 and 38 through suitable links (not shown). The shafts 32 and 38 are oscillated by an oscillating crank arm mechanism (not shown). the blade 22 so that when the blade 22 is being pivoted inwardly as shown in Figure 1 the blade 20 is being pivoted outwardly and vice versa to provide a zig-zag configuration of the yarn between the carpet base layers 17 which are liquid-permeable, that is permeable to the adhesive to be applied. between the carpet base layers 17, hot melt adhesive 80 maintained in troughs 82 is applied to apDlicator rolls 84 by passing through I gaps 96 between the side walls 88 of the troughs 82 and the applicator rolls 84. The hot melt adhesive may be maintained in the liquid phase by heating means not shown. The amount of adhesive applied to the applicator rolls may be adjusted as desired by moving troughs 82 upwardly or downwardly as indicated. Applicator rolls 84 are caused to move preferably in the directions indicated hy drive means not shown whereby adhecive is applied to the carpet, base layers 17 and simultaneously forced through the base layers into contact with yarn 10. The rolls may also be forced to move in the opposite direction to the directions indicated if so I des i red. Sf'* It should be noted that the blade 20 is out of phase with After the yarn has been positioned in zig-zag configuration #25 201975 After the hot melt adhesive has been applied to the carpet base layer and forced through it into contact with the carpet yarn, it may be converted into the solid phase by cooling means 90 to form a bond between the carpet yarn 10 and the carpet base layers 17. Cooling means 90 may be supplied with air blowers 92, cooling coils 94 over which air is forced and thereby cooled prior to exiting the cooling means through exit ducts 96 into contact with the carpet base layers to thereby cool the hot melt adhesive causing it to revert to the solid chase. The yarn 10 may then be severed, generally in the middle of the base layers 17 by cutting blade 98 to provide, simultaneously, two sheets of carpet.

Figure 2 is an enlarged view of the hot melt adhesive applicator means embodiment 78 shown in Figure 1. Numbers in Figure 2 corresponding to numbers used in preceding drawings refer to corresponding parts of the apparatus. The gaps 86 by means of which the amount of hot melt adhesive to be applied may be adjusted as desired are more clearly illustrated. Also shown in Figure 2 are pre-heating plates 101 which may be provided to pre-heat the base layers prior to application of hot melt adhesive and to facilitate such application.

Figure 3 illustrates an alternative embodiment wherein the hot melt adhesive is maintained in a reservoir sided on one side by base layers 17 and on the other side by doctor blades 104. The adhesive 80 is allowed to contact the carpet backings and is forced therethrough by the tips 106 of doctor blades 104.

Figure 4 illustrates yet another embodiment of the inventior where the hot melt adhesive is maintained in tanks 108. Application of the adhesive to the base layers 17 is accomplished by drawing the adhesive out of the tanks 80 through pumps 110 into -yl- ll 201975 j manifolds 112. The adhesive is then forced from the openings 114 I in manifolds 112 under sufficient pressure to force the adhesive j through the carpet base layers 17 into contact with carpet yarn showing an I-tuft configuration of the pile yarns, base layer 17 in the form of a relatively open-weave, adhesive permeable fabric. Hot melt adhesive 60 is shown as a continuous layer into which the base layer 17 has become embedded at the base thereof. A backing layer 150 made of a thermoplastic material is shown as having been bonded to the pile fabric by means of the same hot melt adhesive 80 used to bond the pile forming yarns. Figures 6, 7 and 8 illustrate some folded configurations of the pile forming yarns which may be preferred. Identifying numbers refer to the same structural components as in Fiqure 5. Figure 6 shows a folded, cut pile configuration. Figure 7 shows a loop pile configuration. Figure 8 shows another folded pile configuration where the folded portion of the yarn is on the surface giving the appearance of a loop pile, although the loops are not joined to one another at ! their base. This configuration provides in essence a loop pile product while simultaneously offering the advantages of, for instance, yarn savings of the so-called 1-tuft configuration.

Figure 9 illustrates a conventional cut pile tufted carpet tile having pile yarn 10 tufted through a conventional, polypropylene backing 152, adhesive layer 153, and backing layer 154. loop pile tufted configuration rather than a cut pile configuratioi Figure 11 illustrates conventional, multilayered I-tuft bonded uroduut showing the configuration of pile yarns 10, adhesive layer ! 10.

Figure 5 illustrates an embodiment of the present invention from Figure ,10 only in the illustration of a 201975 155, adhesive impermeable base layer 156 in the form of tightly woven jute, another adhesive layer 157 by means of which backing layer 158 may be adhered to the base layer.

The invention may be further understood by reference to the following examples which are not to be construed as unduly limiting the invention.

Using a machine similar to that shown in Figure 1, a nylon carpet yarn was folded between layers of a woven rayon fabric. By means of an electrically heated plate mounted on one side only, directly below the vertical guide 16, the yarn loops in contact with the fabric at this side only vere lightly fused to the fabric. By omitting the hot-melt adhesive application and the cutting by the blade, a loop-pile fabric was produced on removal of the other non-adhering rayon fabric.

A hot-melt adhesive composition was formulated using atactic polypropylene, hydrocarbon resin and wax, and a molten film of this adhesive cast on a hot-plate at about a portion of the loop-pile fabric made as described above was contacted<on the loop-pile face with a piece of non-woven glass scrim. This assembly was then placed with the glass in contact with the hot-melt adhesive, rolled to force the adhesive through the glass and into the loop-pile yarns, and cooled. Then, the glass side of the sandwich was laminated under heat and pressure to 0.06 inch thick sheet of Keldax®, (a trademark of DuPont for a filled hot-melt composition based on a copolymer of ethylene and vinyl acetate) . A blade was then used to cut the yarn sandwich between the rayon fabric and the glass, thus producing two cut-pile carpets.

EXAMPLE 1 201975 Single yarns were then pulled from the carpet bonded by jj the hot-melt adhesive to the glass. The average force required jj was found to be 4.6 pounds.

! EXAMPLE 2 Used a machine similar to that of Figure 1 with a heater plate as described in Example 1. There was a rayon fabric on the same side as the heater plate, an open leno-woven glass scrim fabric on the non-heated side, and a nylon carpet yarn folded into the gap. The glass side of the sandwich was contacted with a heated applicator (identified as Number 84 in Figure 1), above which was mounted a trough 88 containing the following formulated hot-melt adhesive at about 300'P: Elvax^ 350 {DuPont ethylene/vinyl 30 parts acetate copolymer melt index - 19) Shellmax 400 (Shell micro crystalline 45 parts wax, melting point 177°F) Piccopale 100 (Hercules hydrocarbon 25 parts resin, softening point: 2l2°F) By varying the speed of the application roll relative to the yarn sandwich, and the gap between the trough and the applicator roll, various levels of adhesive were applied to the yarn loops through the woven glass scrim. After cooling and cutting of the yarns to make two cut-pile carpets, the tuft bind was measured on the glass backed carpet portion. Values varied from 4 pounds tuft bind with 15 ounces/square yard of adhesive to 6 pounds with 50 ounces/square yard of adhesive.

EXAMPLE 3 A hot-melt adhesive was formulated as follows: Elvax 350 UE 653-04 (U.S. Industries ethylene/ vinyl acetate copolymer, melt index: 375) Shellmax 500 (Shell micro eryctallino wax, melting point 171°F) 201975 parts 10 parts parti 25 parts Piceopale 100 Using the procedure of Example 2, this adhesive was applied to the glass side of the yarn sandwich giving tuft bind ranging from 7 to 10 pounds with an adhesive pick-up of 32 to 48 ounces/square yard.

EXAMPLE 4 With the following hot-melt adhesive formulation: Elvax 260 (DuPont ethylene/vinyl 35 parts acetate copolymer melt index; 6) Shellmax 400 40 parts Piccopale 100 25 parts and using the procedure of Example 2, obtained a tuft-bind of 5 pounds with as low as 8 ounces/squaro yard of adhesive, with 36 ounces of adhesive, the tuft-bind was 9 pounds.

EXAMPLE 5 Used the same procedure as for Example 2, except that the heated applicator roll/trough to apply the hot-melt adhesive was replaced by a doctor blade applicator on the glass side as depicted in Figure 3. The adhesive was: Elvax 660 (DuPont ethylene/vinyl acetate 20 parts copolymer melt index; 2.5) D-B2 (Hercules experimental hot-melt 80 parts adhesive) With an adhesive pick up in the range of 5-20 ounces/square yard following from the relatively high viscosity of this adhesive, the tuft-bind averaged 4 pounds. n jj EXAMPLE 6 ij Used the method of Example 5, but with a lower viscosity i! , I adhesive prepared thus: !j |i Atactic polypropylene 83 parts Dowlex (Dow linear low density 17 parts polyethylene, melt index: 20) A 3 pound tuft-bind was obtained with adhesive pick ups in the range 14-30 ounces/square yard. -y- 201975

Claims (12)

WHAT WE CLAIM IS:

1. An apparatus for making a bonded pile fabric which coitprises means for positioning two continuous, liquid-permeable base layers in a passage where they lie in substantially parallel relationship to one another at a predetermined distance from one another; folder blades for driving at least one continuous pile forming yarn alternatively against the opposing surfaces of said base layers when they are at or near the entrance to the above mentioned passage in such, a way as to position the at least one pile forming yarn relative to the base layers and to fold it zig-zag without tufting said at least one pile forming yarn through, said base layers; means for applying to the back of said base layers an adhesive; and means for forcing said adhesive through said base layers so that said adhesive contacts said at least one pile forming yarn.

2. Apparatus according to claim 1, wherein said adhesive is a hot melt adhesive, and said apparatus further comprises means for cooling said hot melt adhesive to a temperature below its softening point to thereby bond said pile forming yarn to said base layers.

3. Apparatus according to claim 1 or claim 2, which further includes means for separating said base layers from one another to form two continuous hot melt adhesive bonded products.

4. A method for making a hot melt adhesive bonded pile fabric which comprises: positioning two continuous, liquid-permeable base layers in a passage where they lie in substantially parallel relationship to one. ano.th.er at a 261975 predetermined distance from one another, driving at least one continuous pile forming yarn by folder blades alternatively against the opposing surfaces of said base layers when they are at or near the entrance to said passage in such a way as to position the pile forming yarn relative to the base layers and to fold it zig-zag without tufting said at least one yarn through said base layers; thereafter applying to the back of said base layers a hot melt adhesive; forcing said hot melt adhesive through said base layers so that said hot melt adhesive contacts said pile forming yarn; cooling said hot melt adhesive to a temperature below its softening point to thereby bond said pile forming yarn to said base layers; and cutting said at least one pile forming yarn to form two continuous hot melt adhesive bonded products.

5. A hot melt adhesive bonded pile fabric which comprises a liquid-permeable base layer, a pile forming yarn adjacent to but not tufted through the Base layer in pile forming fashion, the pile forming yarn having been bonded to the base layer by means of a hot melt adhesive applied to the back, of said base layer and forced through the base layer into contact with said pile forming yarn.

6. A pile fabric according to claim 5, wherein said pile forming yarn is provided adjacent to said base layer in folded fashion.

7. A carpet tile comprising a liquid-permeable base layer, a pile forming yarn adjacent to, but not tufted through the base layer in folded, pile forming fashion, the pile forming yarn having been bonded to the base layer by means of a hot melt adhesive applied to the back of ■ v' ~'J' c,<. DR -20- ,'Y * 301975 said base layer and forced through the base layer into contact with said pile forming yarn; said carpet tile including a backing layer of thermoplastic material having been bonded to said base layer by means of said hot melt adhesive.

8. A carpet tile according to claim 7, wherein said backing layer includes at least one stiffening and stabilizing membrane.

9. A carpet tile according to claim 8, wherein the stiffening and stabilizing membrane comprises glass fibers.

10. An apparatus according to claim 1, substantially as herein described with reference to the accompanying drawings.

11. A method according to claim 4, substantially as herein described with reference to the accompanying drawings.

12. A pile fabric according to claim 5, substantially as herein described with reference to the accompanying drawings.