United States Patent [191 Bahlo Nov. 12, 1974 1 1 PROCESS OF APPLYING ADHESIVE TO A FLOOR COVERING [75] lnvcntor: Jui'gen F. Bahlo, Cherry Hill, NJ.
[73] Assignee: General Felt Industries, Inc., Saddle Brook, NJ.
22 Filed: Nov. 22, 1972 21 Appl. No.: 308,811
Related US. Application Data [63] Continuation-impart of Ser. No. 131,019, April 5,
1971, Pat. N01 3,704,197.
[52] US. Cl. 117/38, 117/111 B, 156/277, 161/63,161/67, 161/148,161/159, 161/167,
[51] Int. Cl. B4lc l/lS [58] Field of Search 117/38, 111 B, 138.8 D,
[56] References Cited UNlTED STATES PATENTS 3,463,690 8/1969 Converse et a1. 156/291 3,014,829 12/1961 Curtin 154/49 Primary Examiner-Herbert B. Guynn Assistant Examiner-Bruce H. Hess Attorney, Agent, or FirmColton & Stone, Inc.
[57] ABSTRACT An adhesive backed removable carpet tile comprising a foam backing and a carpet layer is disclosed which may be applied to a subfloor and subsequently removed therefrom without delaminating the foam backing. The adhesive provides a release strength lower than the delamination strength of the foam backing. To provide the proper release strength, the adhesive is applied to the foam backing by a figurated roller to cover between 10 and 50 percent of the foam backing.
4 Claims, 8 Drawing Figures PATENTEDHUV 12 I974 saw 111? a 3'847647 FIG. I
FIG.2
PATENIEDNUV 12 1914 3.847347 SHEET 20F 3 FIG. 5 (Prior art) FIG. 6
PAIENIEURM 12 I974 snmaor FIG. 8
PROCESS OF APPLYING ADHESIVE TO A FLOOR COVERING This application is a continuation-in-part of application Ser. No. 131,019, filed Apr. 5, 1971, now U.S. Pat. No. 3,704,197.
Adhesive backed floor coverings are well known in the prior art. Vinyl surfaced tiles having an adhesive backing may be applied to a subfloor and subsequently removed therefrom without difficulty. Many carpet surfaced tiles provided by the prior art which are adhesively secured to a subfloor cannot be readily removed since the carpet layer delaminates from the foam backing thereby leaving the foam backing secured to the subfloor. The foam backing must then be removed, usually by scraping, using solvents and the like, which is an onerous task.
The problem of removing adhesive backed carpet tiles is particularly acute since the laying of indooroutdoor type carpet tiles has become a popular do-ityourself means of redecorating a dwelling. The need for removing previously laid adhesive backed carpet tiles normally occurs in two situations. The first is where the consumer is unsatisfied with his results in laying the tiles and desires to remove part or all of the tiles to correct a small error in laying. With the carpet tiles of the prior art, the consumer will succeed only in destroying the tiles he attempts to remove. If the consumer persists in correcting his errors, he will compound his difficulties and necessitate the expenditure of greater amounts of time, effort and money to provide a satisfactory floor covering. Under these circumstances, the possibility of a repeat sale is lost.
Thesecond situation where it is necessary or desirable to remove previously laid adhesive backed carpet tiles is where the tiles have been in place for some length of time and begin to show wear. As the consumer attempts to remove the worn tiles, the tiles delaminate thereupon requiring considerable effort to clean the subfloor in preparation for laying new tiles. In this situation also, the possibilities of repeat sales evaporate.
In the prior art, pressure sensitive adhesive has been applied to foam-rubber backed carpet tiles by knife coating, kiss-roller coating, overall engraved print roller coating and by spraying. Application by knife coating or kiss-roller coating provides an uneven adhesive application whenever the foam backing has a physically nonuniform surface. Accordingly, the prior art carpet tiles manufactured by these processes exhibit uneven release strengths whereby the tile delaminates upon removal. Application of adhesive by overall engraved print rollers or by spraying causes varying amounts of adhesive to be absorbed by foam backing of differing cell structures. The release strength of the adhesive cannot be duplicated from one batch of carpet to the next since the foam cell structures usually differ significantly.
It is an object of this invention to provide a process of applying adhesive to a foam backed floor covering by contacting the foam backing with a design configured roller to apply adhesive to a fraction of the foam backing.
In summary, the process of applying adhesive to a floor covering in accordance with this invention comprises selecting a foam backing of 8.5-19 pounds/cubic foot bulk density having a traffic bearing layer bonded to the foam backing exhibiting a delamination strength of 1.0-2.25 pounds/inch; applying a liquid adhesive having a dry tack level between 1.25-1.75 pounds/inch when applied .001 inch thick to a multiplicity of adhesive carrying cups provided by a roller, each of the cups having an area less than about .01 square inches and aggregating between 10-50 percent of the area of the foam backing; contacting the roller and the foam backing; transferring the adhesive from the cups to the foam backing to produce a multiplicity of adhesive areas on the foam backing; and solidifying the adhesive to produce a release strength for the floor covering between .l.9 pounds/inch.
FIG. 1 is a view of the back of a carpet tile made in accordance with this invention;
FIG. 2 is a side elevation of the carpet tile of FIG. 1;
FIG. 3 is an enlarged view of part of the back of the carpet tile of FIGS. 1 and 2;
FIG. 4 is an enlarged cross sectional view of the carpet tile of FIG. 3 taken substantially alongline 44 thereof as viewed in the directions shown by the arrows;
FIG. 5 illustrates a prior art adhesive backed carpet tile during removal thereof from a subfloor;
FIG. 6 illustrates a carpet tile of this invention during removal from a subfloor;
FIG. 7 is a schematic view of one technique for applying adhesive in accordance with this invention; and
FIG. 8 is a schematic view of another technique for applying adhesive in accordance with this invention.
Referring to FIGS. 13 there is shown a floor covering 10 having a foam backing l2 and a traffic bearinglayer 14. Thefoam backing 12 has thereon adhesive means 16 for securing the floor covering 10 to a subfloor.
The foam backing l2 and the traffic bearinglayer 14 are made in any suitable manner. The traffic bearinglayer 14 comprises carpeting of any suitable type and includes a multiplicity offibers 18, such as fibers or yarns, as shown in FIG. 4. Typically thecarpeting 14 is first manufactured and the foam backing l2, usually comprising a styrene-butadiene rubber, is cast thereon as a liquid. The liquid rapidly sets into a foam material bonded to thecarpeting 14. The bulk density of the foam backing 12 varies between 8.5 and 19 pounds/cubic foot and weighs typically about 14.75 pounds/cubic foot. The tear strength of thefoam backing 12 is between 1 and 2.25 pounds/linear inch with typical values lying in the lower part of this range.
One of the difficulties encountered in providing an adhesive backed carpet tile which may be removed without delamination resides in the variation in cell structure and porosity of thefoam backing 12. As will be appreciated by those skilled in the art, the porosity and the cell structure of thebacking 12 varies substantially from day to day depending on the latex shelf age, composition and/or the environmental conditions under which the liquid rubber is cast onto thecarpeting 14. With high porosity, thefoam backing 12 tends to absorb increased amounts of adhesive thereby increasing the strength of the bond between the carpet tile and the subfloor. When the release level of this bond exceeds the tear strength of the foam backing, the floor covering delaminates upon attempted removal from the subfloor.
One very desirable adhesive material for securing a floor covering to a subfloor is a water dispersed acrylic adhesive. If this adhesive is applied over the total of thefoam backing 12, at for example .002 inch thickness, the release strength of the dried and cured adhesive exceeds the tear strength of thebacking 12 whereupon the floor covering 10 delaminates during the removal. n the other hand itis desirable for the adhesive to be spread over the entire part of the backing to prevent edge curling and slippage.
In accordance with this invention, the adhesive means 16 comprises an adhesive material having a tack level in excess of the minimum tear strength of the foam backing l2 and desirably in the range of 1.25-1.75 pounds/inch when applied in a film .001 inches thick. An acceptable water-dispersed acrylic adhesive may be obtained from Manufacturers Chemical Company, Camden, New Jersey, under the trade name Manuflex 3015. This adhesive typically has a tack level of about 1.3 pounds/inch at .001 inch thickness of film application. To provide a satisfactory release strength so that the floor covering may be removed from a subfloor without delaminating, the adhesive material is I applied to thebacking 12 in a multiplicity of discrete portions as shown best in FIGS. 3 and 4. Each of theportions 20 is desirably less than about .01 square inches in extent and is preferably between .001 and .002 square inches in area. Theadhesive portions 20 are preferably between .015 and .02 inches in depth. As will be appreciated, the larger each of theportions 20 becomes the greater is the possibility for localized tearing of thebacking 12 which tends toward general delamination. As will be more fully apparent hereinafter, theindividual portions 20 are conveniently circular having a diameter between .04 and .05 inches.
The area of thebacking 12 covered by theadhesive portions 20 desirably comprises between 10 and 50 percent thereof. Instead of distributing theadhesive portions 20 evenly over thebacking 12, better release strengths are obtained by disposing theportions 20 in groups or sets which are spaced apart by areas aggregating approximately 30 percent of thebacking 12. The area of each set covered by theadhesive portions 20 may be up to 80 percent provided the sets are small. In the embodiment illustrated in FIGS. 1 and 3, theadhesive portions 20 aggregates approximately 30 percent of the area of each adhesive set and aggregates approximately 11 percent of the area of thebacking 12.
As shown best in FIGS. 1 and 3, theadhesive portions 20 are preferably arranged in sets of diamond or parallelogram configuration having along axis 22 and a substantially perpendicularshort axis 24 in order to debond the minimum number ofportions 20 at any given time. Thelong axis 22 of the sets located in each quadrant of thecarpet tile 10 are parallel to aline 26 extending from the corner and the center of thebacking 12. The normal manner in which a tile is removed from a subfloor is to peel back one corner thereof as suggested in FIGS. 5 and 6. Orienting thelong axis 22 of the adhesive sets in the manner shown in FIGS. 1 and 3 insures a minimum number ofdiscrete portions 20 being debonded from the subfloor at all times during the removal operation.
It is essential that the release strength of the adhesive means 16 be less than the tear strength of thefoam backing 12. Using a foam backing having a tear strength between 1.0 and 2.25 pounds/inch the maximum release strength of the adhesive means 16 is between .6 and .9 pounds/inch. The minimum release strength of the adhesive means 16 must be sufficient to adhere thecarpet tiles 10 to a subfloor and desirably is between .1 and .5 pounds/inch.
Typical carpet layers 14 have grain direction that must be aligned when thetiles 10 are placed to insure a uniform appearance. It is common in the prior art to print an arrow on thefoam backing 12 to indicate the grain direction of thecarpet layer 14. In the prior art, this necessarily involves a separate or complicated printing operation since the adhesives of the prior art are applied over substantially all of thebacking 12. An advantageous side light of this invention may be taken advantage of where the adhesive material visibly contrasts with thefoam backing 12. As shown in FIG. 1, some of theadhesive portions 20 are arranged to describe an arrow corresponding to the grain direction in thecarpet layer 14. The arrows 28 are, of course, applied to thebacking 12 simultaneously with the application of the remainder of theadhesive portions 20. When using this invention, the effort expended in separately printing a grain directing arrow on thefoam backing 12 may be omitted.
In the process of this invention, the adhesive material is applied to thefoam backing 12 with a design figurated roller having a multiplicity of circular cups formed therein to receive the adhesive material from a container and transfer it to thebacking 12. The cups and the roller are conveniently circular for convenience in making the roller. The cups are preferably between .04 and .05 inches in diameter and are between .015 and .02 inches in depth. Another reason for making theadhesive portions 20 small is the difficulty in applying adhesive material in larger areas.
As a specific example, carpet tiles presently made by the assignee were removed from the production'line. The foam backing thereof had a bulk density of 14.75 pounds/cubic foot and a delamination strength of about 1.0 pounds/inch. The tiles were placed in a roller type printing machine wherein the roller had been engraved with a multiplicity of .045 inch diameter X .015 inch deep cups disposed in a pattern reverse of that shown in FIG. 1. The area of the cups in each set aggregated approximately 30 percent of the area thereof. The aggregate area of the cups comprised approximately 11 percent of the area of the 12inch X 12 inch carpet tile. Manuflex 3015 adhesive having a tack level of 600 grams/inch for a .001 inch dry film from Manufacturers Chemical Company was placed in the receptacle of the printing machine. The engraved configurated roller dipped into the receptacle and picked up a substantial amount of adhesive material. A doctor blade was used to remove excess adhesive from the periphery of the roller; approximately 1.3 grams of wet adhesive was transferred by the figurated roller to each 12inch X 12 inch tile passing through the printing machine. The tiles were allowed to dry at ambient temperature and humidity. Separate tiles were placed on alkaline subconcrete, glass, wood and vinyl asbestos subfloors and loaded at 20 pounds/square foot at 160F. At the end of 3 days, the tiles were removed from the subfloors and all exhibited a release strength between and 200 grams/inch.
Referring to FIGS. 5 and 6, the advantages of this invention are illustrated. In FIG. 5, acarpet tile 30 is secured to asubfloor 32 of any type. Thetile 30 is removed from the subfloor 32 by grasping on onecorner 34 thereof and pulling. As thecorner 34 moves away from the subfloor 32, thefoam backing 36 tears or delaminates to leave a part thereof adhered to thesubfloor 32. To prepare the subfloor 32 to receive another floor covering, thefoam backing 36 adhering thereto must be removed, as by scraping or the like.
Referring to FIG. 6, a carpet tile of this invention is secured to asubfloor 38 of any desirable type. One
corner 40 of thetile 10 is pulled back from the subfloor' 38. The release strength of the adhesive means 16 is sufficiently low to release from the subfloor 38 without tearing or delaminating thefoam backing 12.
Referring to H6. 7, there is schematically illustrated a technique for applying acrylic adhesive to thecarpet tiles 10. Thecarpet tiles 10 are fed from conventional production equipment toward aroller assembly 42 comprised of an engravedroller 44 and apressure roll 46. Therollers 44, 46 are driven by suitable means (not shown) in the direction indicated by thearrows 4 8. Thefigurated roller 44 had been engraved with a multiplicity of .045 inch diameter X .015 inch deep cups disposed in a pattern reverse of that shown in FIG. 1. Amass 50 of water dispersed acrylic adhesive sold by Manufacturers Chemical Company, Camden, New Jersey, under the tradename Manuflex 3015 is positioned in contact with theroller 44. Aconventional doctor blade 52 acts to remove excess adhesive from theroller 44. Consequently, each of the cups provided by theroller 44 carries a small quantity of adhesive which is transferred to the backing on thecarpet tiles 10 as thetiles 10 pass through the nip between therolls 44, 46. Asuitable dryer 54 is positioned in a dryingzone 56 adjacent the path of tile movement to remove water carried by the adhesive. As thetiles 10 exit from the dryingzone 56, the adhesive has been converted to a pressure sensitive type.
Downstream of the dryingzone 56 is arelease paper applicator 58 of conventional design. Therelease paper applicator 58 comprises a pair ofadjacent rolls 60, 62 driven by suitable means (not shown) in the direction shown by thearrows 64. A suitable release paper 66 is fed onto theroll 60 for placement against the adhesive side of thecarpet tiles 10. As thecarpet tiles 10 leave therelease paper applicator 58, thetiles 10 are capable of being handled or packaged.
Referring to FlG. 8, there is illustrated a technique for applying a hot melt adhesive in lieu of the acrylic adhesive previously discussed. Thecarpet tiles 10 are fed from suitable production equipment to aroller assembly 68 comprised of a figurated or engravedroller 70 and apressure roll 72. Therollers 70, 72 are driven by suitable means (not shown) in the direction indicated by thearrows 74. Positioned adjacent the engraved roller '70 is ahopper 76 containing a quantity of hot melt adhesive 78. Thehopper 76 and theroller 70 may be heated by any suitable means such as by an electrical resistance coil d0. Adoctor blade 82 comprises part of thehopper 76 and is used to wipe excess adhesive from the external surface of theroller 70. A suitable hot melt adhesive is made by Manufacturer's Chemical Company, Camden, New Jersey, under the tradename Manuflex 6007. This particular adhesive is a mixture of ethylene vinyl acetate and tackifiers. The melting point of this adhesive is approximately 325 F.
Consequently, the heating element should be sized sufficiently to melt the adhesive.
As the carpet tiles it pass through the nip of therolls 70, 72, the adhesive carried by the cups of the engravedroller 80 is transferred to thetiles 10. As will be apparent to those skilled in the art, theroll 70 may be heated to assure that the adhesive, while in the cups, remains liquid. Thetiles 10 then pass through acooling zone 84 where the adhesive is cooled below its melting point and accordingly solidifies on the carpet tiles. After thetiles 10 pass from the coolingzone 84, they pass into a release paper applicator B4 comprised of a pair of rollers 8'6, 88 which are driven by suitable means (not shown) in the direction indicated by thearrows 90.Release paper 92 is fed to therollers 86, 88 in a conventional manner for application to the adhesive side of thecarpet tiles 10.
It will be apparent there is herein provided an improved process of making a floor covering.
1 claim:
1. A process of applying adhesive to a floor covering having a foam backing of -19 pound/cubic foot density and a traffic bearing layer bonded to the foam backing having a delamination strength of l.02.25 pound/inch, the process comprising the steps of applying an effective amount of a liquid adhesive to the foam backing in a multiplicity of discrete portions each having an area of less than about .Ol square inches and separated from the next adjacent portion by a non-adhesive area, the portions aggregating less than about 50 percent of the area of the foam backing; and
solidifying the adhesive to produce a release strength for the floor covering between .l.9 pound/inch.
2. A process of applying adhesive to a floor covering having a foam backing of 8.5-19 pound/cubic foot density and a traffic bearing layer bonded to the foam backing having a delamination strength of l.02.25 pound/inch, the process comprising the steps of placing a liquid adhesive having a dry tack level between 1.25-1.75 pounds/inch at .00l.002 inch thickness of application in a multiplicity of adhesive carrying cups provided by a roller, each of the cups having an area less than about .01 square inches and aggregating between 10-50 percent of the effective area of the roller;
contacting the roller and the foam backing;
transferring the adhesive from the cups to the foam backing to produce a multiplicity of discrete adhesive areas on the foam backing; and
solidifying the adhesive to produce a release strength for the floor covering less than the delamination strength of the foam backing.
3. The process of claim 2 wherein the adhesive consists essentially of a water-dispersed acrylic adhesive and the solidifying step comprises drying the adhesive.
4. The process of claim 2 wherein the adhesive material consists essentially of a hot melt adhesive having a predetermined melting range, the applying step comprises the step of maintaining the hot melt adhesive above the melting range thereof, and the solidifying step comprises cooling the adhesive below the melting range thereof.
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