US3854441A

US3854441A - Apparatus for applying barrier coating substances to sheet materials

Info

Publication number: US3854441A
Application number: US00334747A
Authority: US
Inventors: G Park
Original assignee: Bolton Emerson SA
Current assignee: Bematec SA; Bolton Emerson Americas Inc
Priority date: 1972-06-02
Filing date: 1973-02-22
Publication date: 1974-12-17
Anticipated expiration: 1991-12-17

Abstract

A barrier coating of the high viscosity ''''hot melt'''' class is applied with high uniformity to a moving web by means of a coating apparatus which is capable of operating at speeds as high as 1,500 feet per minute utilizing ''''hot melt'''' compounds of viscosities ranging as high as 100,000 c.p.s. The coating fluid in a heated condition is applied from a coating head consisting of a tubular body formed with an elongated aperture over which the web is passed. The coating fluid is under relatively high pressures of varying intensity. Pressure change along the elongated aperture is controlled by regulating web pressure. Multiple tensioning means are arranged at two opposite sides of the coating tube. One tensioning device engages the web at it approaches the coating head and acts initially to exert cross tension and stretch the web sufficiently to overcome variations in caliper and web length. A second tensioning device exerts linear tension to force the transversely stretched web uniformly against the coating tube with sufficient web pressure to equalize and balance pumping pressure of fluid all along the coating aperture. Required web pressures of a magnitude necessitating linear tension in excess of the tensile strength of any given web is provided by means of a web press roll adjustably supported in rolling contact with the web immediately above the elongated tube aperture. The web press roll is adjustable both vertically and horizontally to vary its position relative to the elongated tube aperture.

Description

[ Dec. 17, 1974 APPARATUS FOR APPLYING BARRIER COATING SUBSTANCES TO SHEET MATERIALS Inventor: George C. Park, North Reading,

Mass.

Assignee: Bolton-Emerson, Inc., Lawrence,

Mass.

Filed: Feb. 22, 1973 Appl. No.: 334,747

Related US. Application Data Continuation-impart of Ser. No. 259,072, June 2, 1972, abandoned, which is a continuation-in-part of Ser. No. 48,660, May 15, 1970, abandoned, Division of Ser. No. 806,473, March 12, 1969, Pat. No. 3,556,832, which is a continuation-in-part of Ser. No. 806,040, March 6, 1969, abandoned. which is a continuation of Ser. No. 335,67, Jan. 3, 1964, abandoned.

US. Cl. 118/34, 118/410 Int. Cl. 1305c 5/02 Field of Search 118/33, 34, 410, 411, 122, 118/8, 6; 226/39, 195

[56] References Cited UNITED STATES PATENTS 579,043 3/1897 Cloudman 118/122 X 1,949,237 2/1934 Bradner 226/195 X 2,309,981 2/1943 Randall 118/410 2,464,771 3/1949 Van Guelpen 118/410 2,727,488 12/1955 Nerim 118/4'10 3,180,548 4/1965 Stafford 226/195 Primary Examiner.lohn P. McIntosh Attorney, Agent, or FirmMunroe H. Hamilton 5 7] ABSTRACT A barrier coating of the high viscosity hot melt" class is applied with high uniformity to a moving web by means of a coating apparatus which is capable of operating at speeds as high as 1,500 feet per minute utilizing hot melt compounds of viscosities ranging as high as 100,000 c.p.s. The coating fluid in a heated condition is applied from a coating head consisting of a tubular body formed with an elongated aperture over which the web is passed. The coating fluid is under relatively high pressures of varying intensity. Pressure change along the elongated aperture is controlled by regulating web pressure. Multiple tensioning means are arranged at two opposite sides of the coating tube. One tensioning device engages the web at it approaches the coating head and acts initially to exert cross tension and stretch the web sufficiently to overcome variations in caliper and web length. A second tensioning device exerts linear tension to force the transversely stretched web uniformly against the coating tube with sufficient web pressure to equalize and balance pumping pressure of fluid all along the coating aperture. Required web pressures of a magnitude necessitating linear tension in excess of the tensile strength of any given web is provided by means of a web press roll adjustably supported in rolling contact with the web immediately above the elongated tube aperture. The web press roll is adjustable both vertically and horizontally to vary its position relative to the elongated tube aperture.

1 Claim, 23 Drawing Figures PATENTEU SEC! H974 sum 01 0F 13 PAIENm, DEC! H914 sum on HF 13 PATENTEU SEC] 7 m4 SHEET 05 0F 13 PATENIEE SE31 7 I974 sum 07 [1F 13 PATENTH, LIB! H974 S EET 0a or 13 PAIENIEB 353 saw us or 13 PUMP OUTPUT SETTING POUNDS PER MINUTE WEIGHT l5 LBS. 3000 FT.

TARGET COATING SPEED OF WEB WEB WIDTH APPARATUS FOR APPLYING BARRIER COATING SUBSTANCES TO SHEET MATERIALS This application is a continuation-in-part of Ser. No. 259,072, filed June 2, 1972, now abandoned; which in turn is a continuation-in-part of Ser. No. 48,660, filed May 15, 1970, now abandoned; which in turn is a division of 806,473, filed Mar. 12, 1969, now US. Pat. No. 3,556,832; which in turn is a continuation-in-part of Ser. No. 806,040, filed Mar. 6, 1969, now abandoned; which in turn is a continuation of Ser. No. 335,607, filed Jan. 3, 1964, now abandoned.

The present invention relates to apparatus for applying a barrier coating substance to sheet materials of the class including paper webs, films, foil, fabrics, and the like. More particularly, the invention is concerned with a coating apparatus of the class in which a coating tubular coating head including an elongated discharge aperture is employed. It is contemplated that the coating substance may be applied as a single coating or in the form of successive coatings, one applied to function as an outer protective surface on one or both sides of a singlr layer of material. The coating substance may also be employed as an adhesive or bonding agent for laminating two or more webs of material together.

In coating a web of material with a slotted coating tube'through opposite ends of which a high viscosity coating fluid is forced, a commonly experienced difficulty is failure to apply the coating in a uniform thickness all the way across the web. This may occur largely because of pressure drop toward the center of the tube due to increased friction. As a result, greater internal pumping pressure is exerted at the outer ends of the tube aperture or slot than at the center.

While such difficulties are subject to some degree of control when using ordinary solvent and emulsion-type coating materials applied at relatively low flow rates, a much greater problem is present when dealing with high viscosity materials discharged at relatively high pressures to provide increasing higher flow rates. Under such conditions greater web pressure, normally induced by increasing linear tension, becomes necessary to maintain the web against the coating tube or head and for some coating operations, the requirement for added tension may exceed the tensile strength of the web with consequent breaking.

A further condition which manifests itself is the tendency for high viscosity material supplied at higher flow rates to displace any portions of the web which are slack or which are subject to bariations in caliper or length. Furthermore, substantially increased tension forces exerted linearly of a web having a slack or nonuniform portions may tend to draw the web undesirably and in this way also unsatisfactory coating will occur.

It is, in general, therefore, a chief object of this invention to deal with the problem indicated above, and to provide an improved apparatus for applying barrier coating substances of relatively high viscosities utilizing a tubular type coating head. It is a further object of the invention to devise a coating apparatus which includes novel means for controlling webpressure and web tension in combination with a tubular type coating head and to utilize the coating apparatus in coating thermoplastic compounds of the class commonly referred to as hot melt compounds which may have relatively high viscosities in a viscosity range running as high as 100,000 c.p.s.

Another object of the invention is to devise apparatus for applying high viscosity coatings to webs which are subject to variation in caliper and length in order to insure application of highly uniform layers and elimination of streaks or lines resulting from particles being collected in the coating equipment.

Another object of the invention is to provide a coating apparatus by means of which web speed and pumping rates may be synchronized and a continuous indication of both web speed and pumping rates may be visually presented to a machine operator so that a more efficient coating operation may be realized.

Still another object of the invention is to provide a modification of the coating apparatus of the invention in which a means for imparting internal tension to a web is provided. I

The nature of the invention and its other objects and novel features will be more fully understood and appreciated from the following description of a preferred embodiment of method and apparatus selected for purposes of illustration and shown in the accompanying drawings in which:

FIG. 1 is a plan view illustrating schematically a web and apparatus employed in coating the web with a high viscous coating material;

FIG. 2 is a side elevation view further illustrating a web moving through the coating apparatus of the invention and particularly indicating multiple tensioning means;

FIG. 3 is a front elevational view of the apparatus shown in FIG. 2;

FIG. 4 is a vertical cross sectional view showing details of the tubular coating head and a web in a coating position;

FIG. 5 is an enlarged vertical cross sectional view further illustrating portions of the coating head and web of FIG. 4;

F IG. 6 is a fragmentary cross sectional view of the applicator head taken approximately on the line 66 of FIG. 9;

FIG. 7 is a cross sectional view of a tubular component shown removed from its supporting structure;

FIG. 8 is a fragmentary elevational view of the coating head shown with heating means associated therewith;

FIG. 9 is a cross sectional view taken on the line 9-9 of FIG. 8;

FIG. 10 is a cross section taken approximately on the line I0 l0 of FIG. 9;

FIG. 11 is an exploded view of the coating head components, portions of which are indicated fragmentarily;

FIG. 12 is a fragmentary detail plan view illustrating a web of paper in an operative position relative to the coating tube;

FIG. 13 is a plan view illustrating diagrammatically power driven components of the coating apparatus connected in interlocking driving relationship for syn chronizing web speed and pumping rates in a visually indicated manner;

FIG. 14 is a cross section illustrating diagrammatically a multiple coating operation;

FIG. 15 is a detail cross sectional view of a modified form of coating head apparatus which includes a special web press roll member;

FIG. 16 is a fragmentary elevational view further illustrating the coating head and web press roll apparatus of FIG.

FIG. 17 is a detail cross sectional view illustrating diagrammatically a web fibre ironing step;

FIG. 18 is a diagrammatic view illustrating an operators chart for one specific coating operation;

FIG. 19 is a plan view illustrating schematically a web coating apparatus having an internal tensioning and clutch mechanism for regenerative braking;

FIG. 20 is a perspective view illustrating diagrammatically the apparatus shown in FIG. 19;

FIG. 21 is a side elevational view of a coating machine in which the apparatus of FIG. 19 is contained;

FIG. 22 is a side elevational view of an opposite side of the coating machine of FIG. 21, and

FIG. 23 is a fragmentary detail view of portion of the clutch and gear mechanism shown in FIG. 21.

As earlier noted, the coating method and apparatus of the invention in one preferred embodiment is designed to handle hot melt materials of the class which may require heating to temperatures as high as 400 F and which may occur in a viscosity range running as high as [00,000 c.p.s. The invention will, therefore. be described with reference to the use of these high viscosity coating materials although it should be understood that this is not done in a limiting sense and various other classes of coating materials may be employed in the invention method.

With this preferred embodiment of the invention method, it is contemplated that webs may be coated in a range of widths of from 15 to 85 inches up to 200 inches at speeds running as high as 1,500 feet per minute and providing coating weights of from 2 lbs. up to 40 lbs. or more. Coating may be applied to cover one side or two sides of a web and the method may also be employed to coat, laminate with a second web, and again coat, all in one pass through the machine.

In carrying out the method in its preferred form and handling high viscosity coating materials, I have discovered that I may employ specially controlled web tensions and web pressures in combination with a tubular type coating head and I have devised as one important feature of the invention multiple tensioning means arranged at two opposite sides of the coating head in relatively depressed positions.

The multiple tensioning means acts on the web as it leaves a supply roll and approaches the coating head under linear tension. Then just before and just after the head transversely directed tensioning forces stretch the web transversely in sufficient degree to overcome variations in caliper and length of the web.

This cross tensioning step of the invention is essential to successful use of linear tension and linear tension as further exerted through the multiple tensioning means acts to force the transversely stretched web uniformly against the coating head with adequate pressure to equalize and balance variable pumping pressures of high viscosity fluid along the coating head and thus the problem of pressure drop from friction may be controlled.

I have further discovered that in some coating operations, where very high viscosities and high flow rates may require web pressures of a magnitude necessitating linear tension in excess of the tensile strength of the web, I may provide additional web pressure at the coating head by employing a special web press roll supported in rolling contact with the web immediately above the coating head aperture and adjustable both vertically and horizontally relative to the coating head.

I have futher determined that in controlling web tension and web pressure in the manner disclosed, it is important to maintain web speed and pumping rate in constantly regulated relationship to one another in order to apply precisely controlled coating weight to the web.

In this connection, I have still further devised a novel interlocking drive mechanism for actuating both web winding means and fluid pumping means so that web speed and pumping rate in pounds per minute may be synchronized in ,a desirable manner.

I have still further devised a unique flowmeter and indicator apparatus by means of which the synchronized web speed and pumping rate are visually indicated to an operator at all times. For use with the indicator apparatus, I have in addition also provided novel chart means for monitoring machine operation in accordance with a desired coating weight to be applied.

Considering in more detail. the apparatus of the invention, I employ a coating head having a tubular coating element formed with an elongated aperture. Heated coating fluid is forced through opposite ends of the tube under pumping pressure. The heated coating fluid is discharged through the elongated aperture from a confined space which is substantially sealed at one side. Sealing is accomplished by continuously advancing portions of the web under tension and in overlapping relation to opposite ends of the elongated aperture so that material is coated on the web at points inside of the edges of the web at all times.

Attention is directed to FIG. 1 wherein I have illustrated a supply roll E from which a web of material W is drawn off by winding roll means and subjected to a coating operation to provide a coated material W1 having a coating L at the underside thereof. The material W may consist of a cellulosic web and the coating may consist of a thermoplastic coating substance applied from the heated tubular coating head generally indicated by arrow T and including a tubular coating element Tl. As suggested diagrammatically in FIG. 1, heated coating substance of heavy viscosity may, for example, be delivered from a supply source S by a pump P to the coating element T1. A heating medium such as a source of steam at H is arranged to provide a circulation of heat to a heat-conducting body in the tubular coating element Tl through inlets H1 and H2 and an outlet H3. These components are further illustrated in FIG. 3 wherein the pump P and a container for coating substance are shown supported in bracket members 4 and 6 on frame side 2.

The web W is continuously advanced at desired speeds by winding roll means as R. R1 and R2 indicated at the upper right hand side of FIG. 1. Also provided is a variable speed power drive for controlling the web speed through the machine. The variable speed power drive may, for example, include a variable speed motor M which drives a shaft M1 having a sprocket M2 and chain M3 in turn meshing with a sprocket M4 on a shaft MS of winding roll R.

In accordance with the preferred embodiment of the invention, I combine with the web winding and coating head means referred to special multiple tensioning means more clearly shown in FIG. 2 and constituting an important and essential feature of the invention method. The multiple tensioning means includes tensioning devices which are so designed and combined with the coating head T that both variation in web caliper and length as well as variation in pumping pressure at the coating head may be simultaneously dealt with and controlled.

Attention is directed to FIG. 2 wherein it will be observed that the web W is drawn off from the supply roll E under a tension which is induced by the power driven winding roll R at R/Rl and braked at R3/R4 which may be of any given intensity common to typical winding speeds.

In addition to this winding tension, I provide for additional tensioning of the web by means of multiple tensioning devices located at either side of the coating head T and in depressed positions such that tensioning forces are exerted from points below the top of the coating tube T1 in both cases.

The multiple tensioning devices are shown in detail in FIGS. 2 and 3 together with the coating head T and web guiding means. As shown in FIGS. 2 and 3, a roll stand V supports a roll of material from which the web W is continuously drawn off by a nip R/Rl passing through the braking nip R3/R4 and then over preheating roll R4. These rolls are supported between

frame sides

2 and 2 having extensions 2a and 2b and between the extensions 2a and 2b are supported in a fixed position opposite ends of coating head T.

Located in the frame extension at the righthand side of the coating head T as viewed in FIG. 2, is one of the multiple tension-compensating devices of the invention consisting in a cross tensioning roll assembly F1 and located at the opposite side of the coating head T is a second linear tensioning roll assembly F2.

The cross tensioning roll assembly Fl includes as a principal component a rotating bowed expander roll R5 which has opposite extremities received in bearings in a roll stand 100. The expander roll extremities are provided with independent vertical adjustment means 102 for raising and lowering the roll R5. Also provided are lateral adjustment means for moving the roll R6 into and out of skewed position. Operating wheels 'RWl are fixed to control rods as 105 having bevel gears 106 for facilitating manual adjustment of the roll R5.

It is pointed out that the axis of rotation of roll R5 is located substantially below the top of coating head T but is in close proximity to this member so that as a result the web W is subjected to cross tensioning and transverse stretching forces and almost instantly while in a stretched state the stretched web moves over and around the coating head T.

In thus subjecting the web to cross tensioning forces I may vary the stretching action by raising and lowering the roll R5 as may be required from time to time and I may also increase the cross tensioning action by moving the roll R6 laterally into and out of skewed positions and I may also employ additional rolls in a skewed position.

The linear tensioning roll assembly F2 includes a roll member R6 rotatably mounted in a roll stand 108 in suitable bearing members which can be adjusted toward and away from the coating head T by means of an operating wheel RW. The linear tensioning roll R6 is located with its lowermost peripheral portion occurring well below the top of the coating head T so that a linear tensioning force can be exerted downwardly of the coating head T and more importantly while the web is in a cross tensioning or stretched condition constantly controlled by the bowed expander roll.

I have determined that by combining the multiple tensioning means noted with the coating head T in the relative positions to one another described, a novel and important multiple tensioning effect is realized. This multiple tensioning acts on the web W as it leaves the supply roll E and approaches the coating headT and operates initially to exert cross tension force of a magnitude which may stretch the web transversely in sufficient degree to overcome variation in caliper and length of the web.

The controlled cross tensioning step of the invention is, as earlier noted, essential to successful use of linear tensioning of the web and makes it possible for linear tension as further exerted by the assembly F2 to force the transversely stretched web uniformly against the coating head with adequate pressure equalize and balance varying pumping pressures developing along the coating head.

In controlling web tension and web pressure in order to overcome difficulties arising out of the use of high viscosity coating material utilized at relatively high flow rates there may develop conditions where the necessary web pressure requires a web tension which exceeds the tensile strength of the web to be coated and frequent breakingor tearing can occur.

To deal with thisproblem, I have devised auxiliary web press roll means for increasing web pressure against the coating head while still regulatinglinear and cross tensioning in the web itself. A preferred web press roll means is illustrated in FIGS. 15 to 17 adjustably mounted above the coating tube T1, and includes essentially a web press roll and roll-mount means in which the roll is adjustably supported for rotative movement in varying positions relative to the coating tube T1. v

In the roll and roll mount structure referred to, there is included a shaft 132 together with means for adjusting the roll and shaft forwardly and rearwardly relative to the coating head T1 as indicated by the horizontal arrow in FIG. 15. I also provide means for adjusting the position of the press roll and its shaft 132 upwardly and downwardly as suggested by the vertical arrow in FIG. 15, in order to exert varying degrees of pressure against the web W in any desired position of horizontal adjustment over the coating tube T1.

As one desirable form of roll mount means for accomplishing this dual adjustment, I may employ a pair of

pneumatic cylinders

134 and 136 adjustably mounted at opposite sides of the machine on the frame sides 2 and 2' for movement forwardly and rearwardly into desired positions of lateral adjustment, as indicated in FIG. 15. At their upper extremities, the pneumatic cylinders may be either pivotally or slidably supported. Suspended from respective plunger elements of the

pneumatic cylinders

134 and 136 are elongated bearing

blocks

133 and 135, better shown in FIG. 16. The elongated bearing blocks 133 and are slidably disposed on horizontal guide rods as 138 and 140 which may be yieldably secured to adjacent portions of the frame sides 2 and 2. Formed through ends of the elongated bearing blocks 133 and 135 are openings for receiving therethrough opposite extremities of the shaft 132.

By means of the mounting arrangement described, it will be readily seen that in a coating operation where the web W is required to be pressed against the coating head T1, the roll 130 and shaft 132 may be adjusted into any desired position of horizontal adjustment and thereafter pressure may be exerted through the pneumatic cylinders in any desired degree to force the roll 130 against the web W.

It will be observed that in a vertically centered position of the press roll over the coating tube T1, the axis of rotation of the press roll and the central axis of the tube T1 will lie in a common vertical plane. If, however, the press roll is moved forwardly or rearwardly, its axis of rotation will bein a vertical plane which occurs at one side of and in spaced relation to the common vertical plane noted above, and greater pressure may then be exerted against one side or the other of the coating head slot.

I have determined that for many highly viscous coating materials, and particularly viscous hot melt substances of the elastomeric type, it is important to control the adjustment of the press roll relative to the coating head slot, and I have found that positioning the web press roll in a forwardly located position, i.e., from right to left of the coating head T1, as shown in FIG. 15, and then exerting web pressure, provides in many cases clearly superior coating results, and particularly so, where in an instance, the axis of the press roll is positioned to lie in a vertical plane which passes through or very close to the lead-off edge of the coating tube slot.

I have further found that in coating with some extremely difficult coating materials, it is essential to use the combined horizontal and vertical adjustment of the web press roll in order to obtain a satisfactory coating application. In thus adjusting the web coating roll, I may desire to use various other mounting arrangements with adjustments and I may desire to positively drive the press roll or to vary its diameter through a range of sizes.

l find that by thus combining web press roll pressure with cross tensioning and limited linear tensioning, the problem of web breaking can be avoided with uniformity of coating thickness being effectively maintained, and I may also desire to employ the web press roll for various other coating requirements.

Considering in further detail the coating head assembly T, there is included in this assembly a tubular element Tl having a specially formed elongated aperture and adjacent land surface by means of which a precisely metered quantity of coating substance supplied by the pump P may be applied to a web and desirably smoothed out. Numeral 40 denotes the aperture which is more clearly shown in FIGS. 4-1 inclusive and is located at the upper side of the tubular element T1.

The tubular element T1 is constructed as a cylindrical body which is open at opposite ends and along its upper side. There is thus defined a confined space having an aperture 40 as shown in FIG. 7. Opposite edge portions of this aperture 40 are adapted to be secured in circumferentialy adjustable relation to one another by means of adjustment screws as 42 located transversely through opposite sidewall sections as shown in FIGS. 4 and 7. By adjusting these screws the width of the elongated aperture 40 may be varied as desired.

I also provide between these adjustable sidewall sections filler strips as 44 (FIG. 6) which operate to close the aperture 40 at opposite ends of the tubular element so that the quantity of a coating to be applied from the aperture 40 may extend over a greater or lesser area.

The aperture 40 is further defined by a special metering edge construction including a relatively high leadon edge 46 over which a web of material is led to the coating substance, and a relatively low lead-off edge 48 over which the web and an applied layer of material is led away.

It is pointed out that when a web is moving over the tube T1 the relative difference in height between the lead-on edge 46 and the lead-off edge 48 provides for the formation of a short restricted passageway into which freshly coated underside portions of the web may move without the coating being drawn across a sharp edge. It will also be observed that this restricted passageway tends to become larger if the flow of the coating substance extruded through the aperture 40 increases' In combination with this relatively lower lead-off edge construction, I have further provided a novel land surface construction which is denoted by numeral more clearly shown in FIGS. 6 and 7 and consisting of a relieved relatively flat area which extends away from the aperture for a short distance to become terminated at a recessed portion 52. This land surface is designed to smooth and level a coated surface of a web passed thereover and to set the coating substance firmly against the web.

Another feature of the invention is the provision of pressure equalizing means for the member T1 embodied in the construction and operation of the tubular coating apparatus T as shown in greater detail in FIGS. 4-11, inclusive. As noted therein member T1 is located in a special mounting assembly supported at the front of the frame as shown in FIG. 3 in bearing plates l5, l7.

Included in this assembly is a heat conducting bed tube 15 which, as shown in FIG. 11, is formed along its upper and lower sides with curved recesses in which are supported respectively the tubular coating device T1 and a second tubular member T2. Opposite ends of members T1, T2 and bed tube 16 are received through collar members as 18 and 20 adapted to be bolted to the bearing

plates

15 and 17. Secured outside the ends of the bed tube 16 and tubes T1 and T2 are

closure members

22 and 24.

As will be observed from an inspection of FIGS. 9 and 11, these

closure members

22 and 24 are formed with internal passageways 22a and 24a which communicate with tubular members T1 and T2. The

closure members

22 and 24 are further formed with central plug sections 22b and 24b which are constructed and arranged to fit and seal respective opposite ends of a steam chamber 16a of the heat conducting member.

By means of this arrangement steam for heating the bed tube 16 may be introduced through inlets H1, H2 into a steam chamber 16a and removed from an outlet H3. There is thus provided a means of transmitting heat to such of the tubes T1 and T2 in order to maintain at a desired temperature a body of coating substance in the tubes T1 and T2.

As shown in FIG. 3, a supply of the coating substance is pumped from the supply source S by pump P through a feed pipe 30 (FIG. 9) into passageway 22a. Valve V opens and closes the feed pipe while V provides for recirculating material through pump and strainer. A portion of the coating substance passes from passageway 22a into the tube T1 while another portion of the coating substance passes through the tube T2 into the passageway 24a and then into an opposite end of tube T1. With this arrangement, it will be observed that there is no opportunity for pressure to drop from frictional losses in forcing material into tube T1.

A further feature of the coating means of the invention is the arrangement of parts in the tube Tl. As noted in FIGS. 6 and 7, the tube T1 is split along its upper side and formed with a kerf K at its bottom side so that the split may be opened or closed by turning adjustment screws 42. The pressure thus exerted squeezes the tiller strips 44 to prevent escape of liquid material at these points. Opposite ends of T1 are further fitted with sealing rings which seal against

end closure members

22 and 24.

In some coating operations where conditions tend to increase the likelihood of streaks or ridges in an applied coating, I may desire to combine with the coating tube Tl a special coating leveller device which is illustrated in FIG. 4. This device includes an adjustable block 120 mounted in close proximity to tube T1 and having adjustably secured therein an L-shaped bar 122 mounted over a tube 124. Formed in the L-shaped bar along one edge is a V groove 126 in which'is loosely contained a levelling rod 128. I find that this levelling device may be set to engage a freshly coated web and the loosely disposed rod will function to spread out small quantities of fluid which accumulate as a small excess body 130 all along back of the rod and this excess body tends to provide a uniform levelling action of a desirable nature.

In carrying out the method of the invention, a supply of high viscosity heated coating substance is pumped into the tubes T1 and T2 to provide uniform pressure all along tube T1. The coating substance is constantly maintained at a desired temperature by the heat conducting tube 16. At the same time, the web W of paper is guided into contact with a nip roll R3 and a preheating roll R4 and then through the multiple tensioning means and coating head T as earlier described. At this point the web is caused to move through an arcuate path of travel which provides for a predetermined amount of contact of wrap-around of the paper with respect to the tube T1 and which may extend over an arc of 45 degrees or more. A desired tension is exerted in the web and pressure is exerted by the web against the coating head slot. If the tension requirements cause breaking of the web, then the press roll arrangement of FIGS. to 17 is utilized.

It is pointed out that the wrap-around of the web may be controlled to not only convert the tube T1 into a closed container with resultant pressure equalization, but may also provide a highly beneficial effect in laying down heated fibres of rough surfaced webs immediately prior to application of coating. This prevents fibres from remaining erect and penetrating the coated layer to permit wicking and thus destroy the barrier properties of the coating. This fibre-ironing action is v illustrated diagrammatically in FIG. 17 in which fibres 120 in a web W6 are laid down and held while coating layer 122 is applied from coating tube T1.

As shown in FIG. 12, for a given width of a web W which is to be coated, the length of aperture 40 is controlled by use of filler pieces 44 so that opposiste edges of the web W will overlap the filler strips and when held under a suitable tension will tend to seal the area of elongated aperture 40 and constitute the space within the member T1 as a closed volume. By this means uncoated strips may be left on the web with a minimum of difficulty.

In accordance with a preferred form of the invention, the pump P is regulated so that a substantially constant rate of flow of coating substance is delivered to the member T1 and at a predetermined pressure which is of a magnitude such that it exceeds slightly the radially inwardly directed force component of the tensioned web of paper W. Pressure thus induced raises the paper a distance above the aperture 40 which generally corresponds to the thickness of a layer of coating substance desired to be applied to the underside of the paper. In this way, I am enabled to apply only a desired amount of coating substance and the web is never flooded and therefore does not require scraping with a doctor blade.

As this metered quantity of coating is removedfrom the top of the body of coating substance in opening 40 and applied to the web, it is almost instantly moved in over the relatively low lead-off edge 48 and then through the short restricted passageway comprised by the land surface 50 and the moving web itself. While passing through this passageway, the coating is levelled, compressed and smoothed against the land surface 50 and set into the paper to eliminate any irregularities. A desirable result of this passageway is that small particles which may occur in the coating substance are carried off in the coated layer without collecting on the lead-off edge to cause streaking.

In thus providing the passageway noted, I have found that improved results may be obtained by having the lead-off edge 48 spaced lower than the lead-on edge 46 a distance lying in a range of from .005 to .007 inches. A typical coating weight resulting from a pumping rate employed in forcing the coating material through the elongated aperture 40 may be expressed as quantity of material applied, e.g., as 5 pounds per thousand square feet for a 60-inch web travelling at a rate of 600 feet per minute. This provides a coating thickness of approximately 0.001 inches. An optimum land surface is one extending for a distance of one-eighth inch between the lead-off edge 48 and the point of recess which forms the surface 52. The web is in contact with the coating tube T1 a total not exceeding one and three-quarter inches in the direction of its movement.

The web with coated layer L leaves the tube T1 somewhat abruptly at the point of the recessed part 52 after having passed along the land surface 50. Further movement is in a straight path of travel to the roll T6 for a short interval of time after which the web is turned and guided in a reversed path of travel. This reverse path of travel coming immediately after the coating step tends to extend and stretch the coating L in a desirable degree. After having thus been turned the web and the stretched coating thereon passes to roll T1 and then to roll R which is constantly cooled to a desired temperature whereby the layer L of coated substance may be shock chilled and set to a desired condition while still in a relatively stretched state.

The combined effect of reversing the web to stretch the layer L and almost immediately thereafter shock chilling the partially set or hardened material prevents any tendency for curling of the paper to develop as the layer L becomes fully conditioned. As a result, I may, by controlling the stretching of the layer and its time of setting provide a paper stock which will remain flat in sheet form.

While satisfactory results for some coating operations may be achieved using the equipment as described above, I have determined that in many cases where high viscosity coatings are applied at relatively high flow rates, a more precise control of web speed and pumping rates is required for most efficient ma chine operation. With this in mind, I have further devised a method and means for synchronizing web speed and pumping rate in pounds per minute in an accurately controlled manner.

Attention is directedd to FIG. 13 wherein I have illustrated an arrangement for interlocking the actuating means for a pump P1 with the drive means for winter rolls R10, R11, R12. As shown in FIG. 13 a variable speed motor 140 drives a shaft 142 having a sprocket 144 and a chain 146. The chain 146 meshes with a sprocket 148 on shaft 150 which carries winding roll R10. A sprocket 152 on shaft 150 drives a chain 154 which in turn drives a sprocket 156 on a shaft 158. The shaft 158 is connected to a variable speed transmission member 160 in turn connected to shaft 162 coupled to the pump drive 164. By means of the arrangement described, the pump rate in pounds per minute can be set to a desired value for any given web speed and the two will then move in constantly maintained synchronized relationship.

I find that this synchronized operation performs very satisfactorily with the multiple web tension and web pressure controls earlier described to control coating weight uniformly.

I have also devised special indicator means including a flow-meter 170 connected into the pumping line to the tube T1 as shown in FIG. 13 and having a connection to an indicator device 172 which automatically indicates pumping rate in pounds per minute in response to changes in the flow-meter readings. Also combined with the indicator device 172 is a second indicator means 174 which, by means of a suitable tachometer device, senses the rate of speed of the shaft 150 and translates the speed into a reading of feet per minute of travel of web W4. Thus it affords a convenient and extremely useful indicator for visually indicating to a machine operator readings in web speed and pumping rate.

In a typical instance of carrying out a coating operation with mechanism for synchronizing both web speed and pumping rate as described above, a roll of material is put in place in the roll stand V. A web of the material is drawn off at a desired web speed and limited tension is exerted by the multiple tensioning means of the invention until the web runs through without the edges being skewed. Then the pump speed is set to operate at a rate which will furnish a required coating weight in pounds per square feet. Thereafter linear tension is increased gradually until the longitudinal cross section profile of the web is unifomi. This is determined by blanking or cutting out small samples of the coated web and weighing these samples to check on uniformity. Finally with web speed, linear tension and pumping rate adjusted correctly, cross-tensioning is adjusted to provide a uniform cross section profile as determined by cutting samples a second time and checking their weight. In FIG. 1, one form of cutout samples Y are indicated diagrammatically to illustrate these profile measuring operations. With these conditions having been established, I may increase or decrease the pumping rate to obtain heavier or lighter coatings as desired with uniformity being preserved.

I also provide chart means for use with the indicator device described and one typical chart is illustrated in FIG. 18. As shown therein the chart presents tabulated data in the form of pounds of coating material applied per minute for any given set of web widths and web speeds. By inspecting a chart of this nature for any specific coating operation, theoperator may readily adjust the pumping rate to a required value to obtain the coating weight desired. It will be understood that for each coating weight desired, there will be a separate chart to be referred to as desired. This system of measuring flow rate and web speed lends itself readily to automation.

In FIG. 14, I have illustrated a method of applying successive coatings, one over another, using thetension control devices and coating head of the invention. I have found that by applying a heated coating of a high viscosity hot melt compound as described, it becomes possible for a first coating, while still in a partially set and slightly tacky state, to move over the coating head and pick up another layer of coating material which is controlled as before by the web pressure and synchronized pumping speed and web speed. As a result, I may successively apply different types of barrier coatings with excellent results.

FIGS. 19 to 23 illustrate a modification of the invention wherein l have devised a method of differential tensioning. In this method, variation in linear tension may be induced and localized at two or more separate sections of a moving web. In carrying out my method of differential tensioning, the moving web is constantly engaged between two nip points comprised by a set of pull rolls and a set of braking rolls. The two sets of rolls are, however, geared together in a novel manner so that there is induced a predetermined surface speed differential between the pull rolls and the braking rolls.

In thus varying tension in two or more separate sections of a moving web, the braking rolls are comprised by a novel clutch assembly including two clutch sections both of which sections are always rotating but at different speeds. Increase in tension with this arrangement is realized by increasing pressure of one clutch section against the other, and in a preferred form of my method, increase in pressure is accomplished by the use of compressed air. It will be understood that in thus increasing pressure on the clutch faces, a small slipping factor is present which is reduced until the clutch faces approach full non-slipping engagement.

An important feature of my method of differential tensioning resides in the fact that both clutch sections are rotating, and although rotating at different speeds, the percentage of slip between the sections is very low, i.e., about 6 to 8 per cent and therefore the heat dissipation factor is minimal. This is signficant from the standpoint of paper webs especially since most paper webs are capable of undergoing from 2 to 3 per cent without breaking.

Claims

1. Apparatus for applying a viscous coating of the hot melt class to a web of material, said apparatus comprising a frame, a supply roll member for supporting a wound roll of the material at one end of the frame, winding roll means mounted at an opposite end of the frame, power driving mechanism for actuating the winding roll and drawing off a web of the material at a desired rate of travel, a coating tube arranged in the frame below the path of said web to engage the web, said coating tube being constructed with a curved upper side and having an elongated discharge aperture formed along said upper side and lying within the confines thereof, said aperture having high lead-on edge and a low lead-off edge, tension roll means located both in advance of, and in rear of, said tube on said path for exerting tension in the web and guiding the web in an arcuate path of travel over said curved upper side and over said lead on and lead-off edges, a roll mount structure, a press roll rotatably supported in the roll mount structure above the coating tube in rolling engagement with the web and forming a pressure nip with said tube, and said press roll having its axis of roTation in rear of said lead on edge directly above said lead-off edge and lying in a vertical plane which passes through the lead-off edge of the elongated discharge aperture.