US2534320A - Apparatus for coating paper - Google Patents

Apparatus for coating paper Download PDF

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US2534320A
US2534320A US670275A US67027546A US2534320A US 2534320 A US2534320 A US 2534320A US 670275 A US670275 A US 670275A US 67027546 A US67027546 A US 67027546A US 2534320 A US2534320 A US 2534320A
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Prior art keywords
blade
carrier
paper
web
roll
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US670275A
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Taylor William Palmer
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Champion Paper and Fibre Co
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Champion Paper and Fibre Co
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    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21HPULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
    • D21H25/00After-treatment of paper not provided for in groups D21H17/00 - D21H23/00
    • D21H25/08Rearranging applied substances, e.g. metering, smoothing; Removing excess material
    • D21H25/10Rearranging applied substances, e.g. metering, smoothing; Removing excess material with blades
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05CAPPARATUS FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05C11/00Component parts, details or accessories not specifically provided for in groups B05C1/00 - B05C9/00
    • B05C11/02Apparatus for spreading or distributing liquids or other fluent materials already applied to a surface ; Controlling means therefor; Control of the thickness of a coating by spreading or distributing liquids or other fluent materials already applied to the coated surface
    • B05C11/04Apparatus for spreading or distributing liquids or other fluent materials already applied to a surface ; Controlling means therefor; Control of the thickness of a coating by spreading or distributing liquids or other fluent materials already applied to the coated surface with blades
    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21HPULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
    • D21H5/00Special paper or cardboard not otherwise provided for
    • D21H5/0005Processes or apparatus specially adapted for applying liquids or other fluent materials to finished paper or board, e.g. impregnating, coating
    • D21H5/006Controlling or regulating
    • D21H5/0062Regulating the amount or the distribution, e.g. smoothing, of essentially fluent material already applied to the paper; Recirculating excess coating material applied to paper
    • D21H5/0065Regulating the amount or the distribution, e.g. smoothing, of essentially fluent material already applied to the paper; Recirculating excess coating material applied to paper with blades

Definitions

  • This invention relates to the application of coating materials to paper and has especial reference to the application of coating compositions composed of pigment and adhesive usually in aqueous suspension for the purpose of giving to paper a better surface for the reception of high grade printing.
  • the primary object of the present invention is to provide apparatus which is adapted to the application to paper webs of suitable paper coating compositions in layers of such thickness, uniformity, smoothness, and continuity as to constitute a suitable base for high grade printing.
  • Another object is to provide apparatus which will be simple in operation and construction, which will be easily controlled, and which can be operated at speeds up to those common in high speed papermaking machines. Another object is to provide apparatus which can be used to coat the web during its manufacture on a papermaking machine, or to coat a previously made and dried web separate and apart from the paper machine. A still further object is to provide apparatus which can be used to apply coatings of normal or of unusually high solids content. Another object is to provide apparatus which will apply aqueou coatings to paper without tearing, wrinkling, or breaking down the' web. Other objects and advantages of the invention will be apparent from the following detailed description.
  • a blade can be used to limit the thickness and smooth the surface of coating on a paper web where it is supported on a roll or belt carrier, by
  • the roll or belt carrier is desirably made of rubber or a synthetic rubber-like compound having a density of from 60 to 150.
  • density refers to the softness as measured by the Pusey and Jones Plastometer, using a inch ball.
  • rubber as used herein is to be understood as referring to either natural rubber or a similarly yielding and resilient rubber-like composition.
  • the blade or doctor member is of special form having one face which forms a barrier to the passage of excess coating material along with the moving surface of the web and a second face which is parallel to the moving surface of the paper carrier in a transverse direction but converges slightly towards it in its direction of movement. Due to this convergence, the fluid coating material is drawn in between the blade and the paper in the form of a thin wedge-shaped film in a manner analogous to that in which an oil film is drawn in between the bearing surfaces in the so-called Kingsbury bearing. In bearings of that type, one of the bearing surfaces is allowed to pivot and assume a position of equilibrium under the hydrostatic forces; in the wedge-shaped oil film.
  • the blade is held against the coated surface of the web on the carrier by a fixed pressure, or by pressure holding it in a fixed position, and the yielding resilient surface of the moving rubber or rubber-like carrier is deformed under the blade into a position of equilibrium under the hydrostatic forces in the wedge-shaped film of coating material.
  • the present coater differs from the Kingsbury bearing in that in the bearing a stationary surface of fixed form assumes a position of equilibrium under the hydrostatic forces, whereas in the present coater the moving surface is continuously distorted in form by the hydrostatic pressure as it passes under the blade.
  • the angle of convergence between the wiping surface of the blade and the surface of the web carrier has a definite efiect on the weight of coating material applied to the Web as hereinafter more fully described, and, if made adjustable, can be used as a coating weight control.
  • the coating weight is affected by a. variety of other factors such as the thickness of the blade, the pressure of the blade on the web, the hardness or "density of the carrier surface, the viscosity and solids content of the coating In prac- 3 tice the weight of coating applied to the web may be varied by varying any one or combination of these factors as may be convenient.
  • the paper and coating In passing over blade coaters, particularly where, as here, the paper and coating pass between a blade and a backing or carrier surface, the paper is often drawn into wrinkles.
  • the web has what is known in the trade as a slack or loose edge (one edge which is slightly longer than the other portions of the web), or as buckles (when the longer portion lies between the edges of the web) the excess length tends to accumulate in front of the blade until it is drawn through as a wrinkle or fails to pull through and starts a tear in the paper, which usually breaks down the web and requires washing up and re-threading the coater.
  • Fig. 1 is an enlarged fragmentary detail cross section of the blade and web carrier illustrated as though in contact but free from the pressure which causes the blade to distort the surface of the carrier when in operation.
  • Fig. 2 is a greatly enlarged and distorted fragmentary cross sectional view showing the cooperation between the blade and the paper carrier surface and indicating diagrammatically the manner in which the paper and coating material are thought to be drawn through between the carrier and the blade, and the distortion of the carrier surface, which is believed to be caused by the hydrostatic pressure in the wedge-shaped film of coating material being drawn under the blade.
  • Fig. 3 is a graphical representation of the qualitative effect on coating weight of variations in the angle of convergence between the blade and the web carrier, and of variations in blade pressure, other conditions remaining unchanged.
  • Fig. 4 is a diagrammatic representation of an arrangement of parts by which the process of the present invention can be carried out.
  • Fig. 5 is a diagrammatic representationa of another arrangement of parts for the same purpose.
  • Fig. 1 shows the rubber of rubber-like carrier surface II with the direction of its motion indicated by the arrow.
  • This may be considered to be a traveling belt or a surface layer on a roll l2 adapted to rotate on journals I3 as indicated in Figs. 4 and 5.
  • the carrier surface ll be indented by the blade 20-, as hereinbefore set forth.
  • the density of the carrier surface should not be less than or more than 150 since surfaces harder than 60 and those softer than 150 have not been found satisfactory for this purpose.
  • the blade 'or doctor member 20 is advantageously of a thickness from one-eighth to about one-half inch and has a forward surface 2
  • the working or wiping surface 22 of the blade is advantageously planor or cylindrical with a radius of curvature not widely different from that of the surface of carrier H. When in pressureless contact with the carrier surface II, the surface 22 should converge towards said surface I l in the direction of its movement at an angle not exceeding about ten degrees and advantageously of the order of 2 to 4 degrees.
  • the change in the angle of convergence from one edge of surface 22 to the other will be even less than this small subtended angle. Because of the smallness in the change in the angle of convergence, this angle can be said to be nearly constant across the width of surface 22, and the term "nearly constant as used in the present specification and claims to deflne the angle of convergence is to be understood asdefining constancy within limits of the order of magnitude as illustrated and described and as specifically excluding changes such as encountered in the use of a round rod or a blade with a half round or quarter round edge with which the angle of convergence may change by as much as ninety degrees in a distance equal to the radius of the rod.
  • the angle of convergence is measured by its nominal value, that is the angle A (Fig. 1) between the plane of (or tangent to) surface 22 and the tangent to surface II, at the trailing edge 24 of the blade when, as in Fig. 1, there is no'pressure between the blade and the carrier surface.
  • blade angle as hereinafter used is to be understood as referring to this nominal value A of the angle of convergence.
  • the working surface 22 may be either planar or cylindrical with a radius of curvature not far different from that of the surface of carrier I I, since, as is apparent from Figs. 1, 2, 4, and 5 of the drawing, curvature to such a radius will not involve any conspicuous deviation from a true plane in a surface which is so narrow as is surface 22, in comparison with the radius of surface II.
  • substantially plane as used in the present specification and claims to describe surface 22 is, accordingly, to be understood to include cylindrical curvature to any radius not materially smaller than the radius of surface II.
  • and 22 meet may be advantageously rounded off to some extent as indicated at 23.
  • the surface 22 should terminate abruptly at 24 though the and the broken line does not necessarily indicate the true position of the undeflectedsurface relative to the blade, and further that the illustration of the deflected position of the carrier surface and the form of the coating layer are based largely on theoretical considerations since the mined in the case of the rapidly moving surfac v beneath the blade.
  • sharp edge should be smoothed ofi, broken" or slightly rounded at a radius not to exceed about tendency to nicking and roughening.
  • carrying fluid coating material 32 is carried on and adheres to the surface of carrier II, and the blade 20 is held against the coated surface of the web with sufficient pressure to indent and deform the surface of the yielding and resilient carrier I I as it passes thereunder.
  • the forward face 2I of the blade 20 pushes back the excess coating material while that remaining on the web is drawn asa film 33 of decreasing thickness into the wedge-shaped opening under the surface 22 of the blade.
  • the yielding surface of carrier II then assumes a form in dynamic equilibrium with the hydrostatic pressure in the wedge-shaped layer of coating being drawn under the blade, as indicated in Fig. 2 where the broken line indicates the undeformed surface of the carrier.
  • Curves marked 35 and 36 show the weight variation due to changes in the angle of convergence when the pressures per linear inch between the blade and the web carrying surface were 5 and 13 pounds respectively. As shown in the figure, while all other conditions remain unchanged, with pressures under the blade equal to 5 and 13 pounds per linear inch, maximum coating weights were secured at angles of convergence equal to about 2%; and 3 degrees respectively. The figure, also shows that at angles less than about 3 degrees an increase in pressure under the blade results in a decrease in coating weight, whereas at angles greater than about 3 degrees an increase in pressure under the blade results in an increase in coating weight, while at angles of about 3 degrees changes in blade pressure result in relatively slight changes in coating weight.
  • Fig. 3 shows the relation of coating weights to blade angles and pressures only when using a inch thick blade and a 12-inch diameter rubber roll of 60 density as measured on the Pusey and Jones Plastometer with a inch ball, to apply a specific paper coating composition to a specific coating raw stock at a speed of 600 feet per minute. Under other conditions the relationships illustrated in Fig. 3 are only qualitatively valid.
  • Blade thickness, pressure, and roll density are to some extent interrelated, thinner blades requiring harder (lower density) rolls and/or lower pressures for equivalent results.
  • Fig. 4 One arrangement of parts which may be used for this purpose is illustrated in Fig. 4.
  • the paper carrier is a rubber layer II on Care should be, taken that the blade does not so embed itself in,
  • the surface of roll I which is mounted to rotate on journal bearings l3 and is driven by conventional driving means, not shown.
  • the carrier with the roll when desired;
  • the blade holder isv provided with one or more lever arms 41 and weights 48 for creating the desired pressure between blade 20 andpaper carrier II.
  • the pivot It may be fixed on a block 49 for adjustment as by a screw 50 if it is desired to have the blade .angle adjustable for adjustment of the coating weight orother purpose.
  • Coating material is introduced-to the paper through a pipe 51 with suitable nozzles 52, and forms a pool 53 before the blade.
  • the coating material in this pool is circulated and agitated by the backward flow of the coating material which is wiped off of the paper web by the leading face 2
  • FIG. 5 Another arrangement is illustratedv in Fig. 5
  • the paper carrier 1 l is illustrated as in the form of a rubber covering on a roll 12- mounted for rotation on journals l3.
  • the blade 20 is held in a holder 55 which is mounted to swing on a fixed pivot 56 in a manner analogous to that described in connection with Fig. 4.
  • the blade is adapted to be removably locked in a fixed position by a toggle or other suitable device 51. This position is so fixed that the blade 20 indents the rubber surface of carrier II to the desired degree, and the pressure exerted by the bladeis that required to deflect the surface to the given degree, and the pressure can be adjusted by suitably adjusting the fixed position to which the blade is pressed when in operation.
  • the moistening of the rubber surface of the carrier roll is controlled as before by the pressure of a roll 5
  • a positively driven roll 65 dips into a pan 56 containing coating material and carries it up and deposits it on the paper web. The excess coating material which is scraped off of the surface of the web drops back into supply pan 66.
  • coatings of pigment and adhesive to paper to improve its surface for the reception of high grade printing, or for other purposes, I have found the method and apparatusof the present invention useful in applying coating content of about 40 percent up to solids contents as high as about percent.
  • Such coatings can be applied, in accordance with the present invention in uniformly smooth layers the dry weight of which can be controlled, as de scribed, within the customary range used for such coatings, and at speeds up to those common in high speed paper making machines;
  • -A device for applying fluid coating compositions to paper webs which comprises: a rotata bly mounted roll which is provided with a yielding resilient rubber covering having a density between '60 and 150, as measured on the Pusey and Jones Plastometer with a A; inch ball, for carrying a freshly coated web of paper past a location where the coating on the paper is subjected to a doctoring operation; means for rotating said roll in a predetermined direction; a doctor blade in theform of a fiat, laterally substantially inflexible prismatic bar having one broad lateral face 2

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Description

, Dec. 19, 1950 w. P. TAYLOR 2,534,320
APPARATUS FOR COATING PAPER Filed May 16, 1946 J &\\\\\ BLADE ANGLE -m:
T g. INVENTOR i/QMM PM, 7 /4 Y ATTORNEY Patented Dec. 19, 1950 APPARATUS FOR COATING PAPER William Palmer Taylor, Hamilton, Ohio, assignor to The Champion Paper and Fibre Company, Hamilton, Ohio, a corporation of Ohio Application May 16, 1946, Serial No. 670,275
3 Claims.
This invention relates to the application of coating materials to paper and has especial reference to the application of coating compositions composed of pigment and adhesive usually in aqueous suspension for the purpose of giving to paper a better surface for the reception of high grade printing.
In the ast, coatings of various kinds have been applied to paper and fabric webs by the use of blade or knife spreading and smoothing devices. In most of these a definite clearance was provided between the blade and a web carrier roll or belt, though in some cases pressure was exerted between the blade and the web. Usually the web carrier was rigid but in some cases rubber,
quired thickness, to produce such printing surface.
The primary object of the present invention is to provide apparatus which is adapted to the application to paper webs of suitable paper coating compositions in layers of such thickness, uniformity, smoothness, and continuity as to constitute a suitable base for high grade printing. A
further object is to provide apparatus which will be simple in operation and construction, which will be easily controlled, and which can be operated at speeds up to those common in high speed papermaking machines. Another object is to provide apparatus which can be used to coat the web during its manufacture on a papermaking machine, or to coat a previously made and dried web separate and apart from the paper machine. A still further object is to provide apparatus which can be used to apply coatings of normal or of unusually high solids content. Another object is to provide apparatus which will apply aqueou coatings to paper without tearing, wrinkling, or breaking down the' web. Other objects and advantages of the invention will be apparent from the following detailed description.
For the attainment of these objects I find that a blade can be used to limit the thickness and smooth the surface of coating on a paper web where it is supported on a roll or belt carrier, by
specially forming and positioning the blade, by using a carrier having hardness and resilience within specific limits, by holding the blade in a manner to apply pressure to and to deform the resilient carrier surface, and by causing the paper material, the speed of operation, etc.
web to adhere to the carrier temporarily where it passes under the blade.
The roll or belt carrier, I find, is desirably made of rubber or a synthetic rubber-like compound having a density of from 60 to 150. The term "density as used herein refers to the softness as measured by the Pusey and Jones Plastometer, using a inch ball. The term rubber as used herein is to be understood as referring to either natural rubber or a similarly yielding and resilient rubber-like composition.
The blade or doctor member is of special form having one face which forms a barrier to the passage of excess coating material along with the moving surface of the web and a second face which is parallel to the moving surface of the paper carrier in a transverse direction but converges slightly towards it in its direction of movement. Due to this convergence, the fluid coating material is drawn in between the blade and the paper in the form of a thin wedge-shaped film in a manner analogous to that in which an oil film is drawn in between the bearing surfaces in the so-called Kingsbury bearing. In bearings of that type, one of the bearing surfaces is allowed to pivot and assume a position of equilibrium under the hydrostatic forces; in the wedge-shaped oil film. In the case of the present "invention, the blade is held against the coated surface of the web on the carrier by a fixed pressure, or by pressure holding it in a fixed position, and the yielding resilient surface of the moving rubber or rubber-like carrier is deformed under the blade into a position of equilibrium under the hydrostatic forces in the wedge-shaped film of coating material. The present coater differs from the Kingsbury bearing in that in the bearing a stationary surface of fixed form assumes a position of equilibrium under the hydrostatic forces, whereas in the present coater the moving surface is continuously distorted in form by the hydrostatic pressure as it passes under the blade.
I have discovered that the angle of convergence between the wiping surface of the blade and the surface of the web carrier has a definite efiect on the weight of coating material applied to the Web as hereinafter more fully described, and, if made adjustable, can be used as a coating weight control. In addition to this angle of convergence I have found that the coating weight is affected by a. variety of other factors such as the thickness of the blade, the pressure of the blade on the web, the hardness or "density of the carrier surface, the viscosity and solids content of the coating In prac- 3 tice the weight of coating applied to the web may be varied by varying any one or combination of these factors as may be convenient.
In passing over blade coaters, particularly where, as here, the paper and coating pass between a blade and a backing or carrier surface, the paper is often drawn into wrinkles. Especiall when the web has what is known in the trade as a slack or loose edge (one edge which is slightly longer than the other portions of the web), or as buckles (when the longer portion lies between the edges of the web) the excess length tends to accumulate in front of the blade until it is drawn through as a wrinkle or fails to pull through and starts a tear in the paper, which usually breaks down the web and requires washing up and re-threading the coater. In order to avoid this diificulty and to further improve the coating operation itself, I have found that if the paper is caused to adhere to a rubber carrier surface which is continuously deflected where it passes the blade, such defects as buckles and slack edges are carried through with the carrier surface and, due to the stretching of the rubber surface caused by its deformation, the paper thereon is held under increased tension as it passes the blade, resulting in a superior smoothness and uniformity of the coating. This imlowed to become dry. The degree 'of dampness required can, I find, be obtained by thoroughly wetting the surface and. squeezing, off the excess by a roll pressed thereagainst. The paper web is then laid smoothly on the moist carrier surface either by tension or by pressure, and adheres thereto to an extent which willstrongly resist any tendency to slide along the surface but will permit the paper to be readily stripped therefrom.
Another advantage which I am able to secure by this moistening of the roll is the fact that the moisture lubricates the roll beyond the edges of the paper web so that it readily slides under the blade in spite of the pressure of the blade on the surface. This also prevents any coating material which may spread over theface of the roll where not covered by the web, from being carried around with the roll and building up to form an objectionable deposit.
The invention will be better understood by refference to the accompanying drawing, in which:
Fig. 1 is an enlarged fragmentary detail cross section of the blade and web carrier illustrated as though in contact but free from the pressure which causes the blade to distort the surface of the carrier when in operation.
Fig. 2 is a greatly enlarged and distorted fragmentary cross sectional view showing the cooperation between the blade and the paper carrier surface and indicating diagrammatically the manner in which the paper and coating material are thought to be drawn through between the carrier and the blade, and the distortion of the carrier surface, which is believed to be caused by the hydrostatic pressure in the wedge-shaped film of coating material being drawn under the blade.
Fig. 3 is a graphical representation of the qualitative effect on coating weight of variations in the angle of convergence between the blade and the web carrier, and of variations in blade pressure, other conditions remaining unchanged.
Fig. 4 is a diagrammatic representation of an arrangement of parts by which the process of the present invention can be carried out.
Fig. 5 is a diagrammatic representationa of another arrangement of parts for the same purpose.
Referring to the drawing, Fig. 1 shows the rubber of rubber-like carrier surface II with the direction of its motion indicated by the arrow. This may be considered to be a traveling belt or a surface layer on a roll l2 adapted to rotate on journals I3 as indicated in Figs. 4 and 5. In accordance with the present invention it is necessary that the carrier surface ll be indented by the blade 20-, as hereinbefore set forth. For this purpose I have found that the density of the carrier surface should not be less than or more than 150 since surfaces harder than 60 and those softer than 150 have not been found satisfactory for this purpose.
The blade 'or doctor member 20 is advantageously of a thickness from one-eighth to about one-half inch and has a forward surface 2| which forms a large angle with the carrier surface II. This angle is advantageously near degrees but maybe any desired angle from about 45 to about degrees. The working or wiping surface 22 of the blade is advantageously planor or cylindrical with a radius of curvature not widely different from that of the surface of carrier H. When in pressureless contact with the carrier surface II, the surface 22 should converge towards said surface I l in the direction of its movement at an angle not exceeding about ten degrees and advantageously of the order of 2 to 4 degrees. From geometrical considerations, it will be apparent that, if the surface 22 is flat, the angle of convergence will decrease from its leading edge 23 to its trailing edge 24 by an amount equal to the angle subtended by the fiat portion of surface 22, at the center of roll 12, and that, if the surface 22 is cylindrical, the angle of convergence will decrease from edge 23 to edge 24 by an amount equal to the angle subtended by the cylindrical portion of surface 22 at the center of roll 12, minus the angle subtended by said-cylindrical portion at its own center. It is evident from the drawing that this decrease in the angle of convergence from one edge of the surface 22 to the other is at most very small since, as shown in Figs. 4 and 5, the angle at the center of roll l2 subtended by the entire thickness of blade 20, is itself very small, and, if the surface 22 is cylindrical in form, as above set forth, or does not extend entirely across the thickness of blade 20, as
illustrated in Figs; 1 and 2, the change in the angle of convergence from one edge of surface 22 to the other, will be even less than this small subtended angle. Because of the smallness in the change in the angle of convergence, this angle can be said to be nearly constant across the width of surface 22, and the term "nearly constant as used in the present specification and claims to deflne the angle of convergence is to be understood asdefining constancy within limits of the order of magnitude as illustrated and described and as specifically excluding changes such as encountered in the use of a round rod or a blade with a half round or quarter round edge with which the angle of convergence may change by as much as ninety degrees in a distance equal to the radius of the rod.
The angle of convergence, as defined in the present specification and claims, is measured by its nominal value, that is the angle A (Fig. 1) between the plane of (or tangent to) surface 22 and the tangent to surface II, at the trailing edge 24 of the blade when, as in Fig. 1, there is no'pressure between the blade and the carrier surface.-
The term blade angle as hereinafter used is to be understood as referring to this nominal value A of the angle of convergence. The actual angle part of the resent invention, they are not further illustrated or described.
It should be noted that the thickness of paper and coating is greatly exaggerated in the figure of convergence, when the device is in operation,
probably differs from the nominal angle as above defined by some unknown and not readily ascertainable amount which is dependent on a variety of factors such as the diameter and the hardness 0r density of the rubber carrier surface, the pressure of the blade thereon, the thickness of the blade, the characteristics of the web being coated, the composition and viscosity of the coating material, the speed of operation, etc.
As has been stated, the working surface 22 may be either planar or cylindrical with a radius of curvature not far different from that of the surface of carrier I I, since, as is apparent from Figs. 1, 2, 4, and 5 of the drawing, curvature to such a radius will not involve any conspicuous deviation from a true plane in a surface which is so narrow as is surface 22, in comparison with the radius of surface II. The term substantially plane as used in the present specification and claims to describe surface 22 is, accordingly, to be understood to include cylindrical curvature to any radius not materially smaller than the radius of surface II.
The sharp edge where the planes of surfaces 2| and 22 meet may be advantageously rounded off to some extent as indicated at 23. The surface 22 should terminate abruptly at 24 though the and the broken line does not necessarily indicate the true position of the undeflectedsurface relative to the blade, and further that the illustration of the deflected position of the carrier surface and the form of the coating layer are based largely on theoretical considerations since the mined in the case of the rapidly moving surfac v beneath the blade.
sharp edge should be smoothed ofi, broken" or slightly rounded at a radius not to exceed about tendency to nicking and roughening.
When in operation, the paper web 3| carrying fluid coating material 32, is carried on and adheres to the surface of carrier II, and the blade 20 is held against the coated surface of the web with sufficient pressure to indent and deform the surface of the yielding and resilient carrier I I as it passes thereunder. (See Fig. 2.) The forward face 2I of the blade 20 pushes back the excess coating material while that remaining on the web is drawn asa film 33 of decreasing thickness into the wedge-shaped opening under the surface 22 of the blade. The yielding surface of carrier II then assumes a form in dynamic equilibrium with the hydrostatic pressure in the wedge-shaped layer of coating being drawn under the blade, as indicated in Fig. 2 where the broken line indicates the undeformed surface of the carrier. As is apparent from the position of the undeflected surface, the indentation and deformation are limited to the immediate vicinity of the blade 20, and the web-carrier I I itself is not bodily displaced, being held against such displacement by a firm support (illustrated in Figs. 4 and 5 as the metallic body I2 of the web-carrier roll). It is also apparent that the deflected surface is longer than the undeflected surface, so that the paper web, because it adheres thereto, is locally held under Fig. 3 shows qualitatively the manner in which the weight of coating applied per ream of the paper web is affected by variations in the angle of convergence A between the wiping surface 22 of the blade and the web carrying surface II. Curves marked 35 and 36 show the weight variation due to changes in the angle of convergence when the pressures per linear inch between the blade and the web carrying surface were 5 and 13 pounds respectively. As shown in the figure, while all other conditions remain unchanged, with pressures under the blade equal to 5 and 13 pounds per linear inch, maximum coating weights were secured at angles of convergence equal to about 2%; and 3 degrees respectively. The figure, also shows that at angles less than about 3 degrees an increase in pressure under the blade results in a decrease in coating weight, whereas at angles greater than about 3 degrees an increase in pressure under the blade results in an increase in coating weight, while at angles of about 3 degrees changes in blade pressure result in relatively slight changes in coating weight.
It should be noted that Fig. 3 shows the relation of coating weights to blade angles and pressures only when using a inch thick blade and a 12-inch diameter rubber roll of 60 density as measured on the Pusey and Jones Plastometer with a inch ball, to apply a specific paper coating composition to a specific coating raw stock at a speed of 600 feet per minute. Under other conditions the relationships illustrated in Fig. 3 are only qualitatively valid.
The effect of operating speed on coating weight varies with the blade angle, pressure, and thicknessfthe roll diameter and density, the coating composition and viscosity, etc., but in general increased speed results in increased coating weight.
Blade thickness, pressure, and roll density are to some extent interrelated, thinner blades requiring harder (lower density) rolls and/or lower pressures for equivalent results.
the roll that its forward edge acts as a scraper. Rounding of the forward edge will sometimes aid in preventing such action.
The application of the coating material to the paper, the pressing of the blade against the coated surface, and the moistening of the carrier surface can be carried out in the manner most convenient in the particular installation. One arrangement of parts which may be used for this purpose is illustrated in Fig. 4. In this arrangement the paper carrier is a rubber layer II on Care should be, taken that the blade does not so embed itself in,
to the surface II.
the surface of roll I: which is mounted to rotate on journal bearings l3 and is driven by conventional driving means, not shown. The carrier with the roll when desired; The blade holder isv provided with one or more lever arms 41 and weights 48 for creating the desired pressure between blade 20 andpaper carrier II. The pivot It may be fixed on a block 49 for adjustment as by a screw 50 if it is desired to have the blade .angle adjustable for adjustment of the coating weight orother purpose. Coating material is introduced-to the paper through a pipe 51 with suitable nozzles 52, and forms a pool 53 before the blade. The coating material in this pool is circulated and agitated by the backward flow of the coating material which is wiped off of the paper web by the leading face 2| of blade 20..
Another arrangement is illustratedv in Fig. 5 In this case also the paper carrier 1 l is illustrated as in the form of a rubber covering on a roll 12- mounted for rotation on journals l3. The blade 20 is held in a holder 55 which is mounted to swing on a fixed pivot 56 in a manner analogous to that described in connection with Fig. 4. In the present case, however, the blade is adapted to be removably locked in a fixed position by a toggle or other suitable device 51. This position is so fixed that the blade 20 indents the rubber surface of carrier II to the desired degree, and the pressure exerted by the bladeis that required to deflect the surface to the given degree, and the pressure can be adjusted by suitably adjusting the fixed position to which the blade is pressed when in operation.
The moistening of the rubber surface of the carrier roll is controlled as before by the pressure of a roll 5| but the water is applied prior to the contact with roll Si by means of a spray pipe 52, a pan 63 being provided to catch any drip.
A positively driven roll 65 dips into a pan 56 containing coating material and carries it up and deposits it on the paper web. The excess coating material which is scraped off of the surface of the web drops back into supply pan 66.
It will be readily understood that the methods of holding and providing pressure on the blade,
of moistening the web carrier, and of applying the excess coating material to the web, can be interchanged between the combinations illustrated in Figs. 4 and 5 or equivalent methods substituted and other arrangements of parts can be provided without in any way departing from the present invention. 1
In applying coatings of pigment and adhesive to paper to improve its surface for the reception of high grade printing, or for other purposes, I have found the method and apparatusof the present invention useful in applying coating content of about 40 percent up to solids contents as high as about percent. Such coatings can be applied, in accordance with the present invention in uniformly smooth layers the dry weight of which can be controlled, as de scribed, within the customary range used for such coatings, and at speeds up to those common in high speed paper making machines;
What is claimed is:
1. -A device for applying fluid coating compositions to paper webs, which comprises: a rotata bly mounted roll which is provided with a yielding resilient rubber covering having a density between '60 and 150, as measured on the Pusey and Jones Plastometer with a A; inch ball, for carrying a freshly coated web of paper past a location where the coating on the paper is subjected to a doctoring operation; means for rotating said roll in a predetermined direction; a doctor blade in theform of a fiat, laterally substantially inflexible prismatic bar having one broad lateral face 2|, the plane of which forms anangle of. from 45' to degrees with the surface of said roll, and an adjacent narrow lateral face 22, which is nearest said roll, is substantially planar, is between inch and inch in width, andcontinuously converges at a nearl constant angle towards the surface of said roll, in the direction of its rotation, and terminates in a substantially sharp edge 24, where it forms with the surface of said roll an angle A of from zero to ten degrees, when the two are in pressureless contact; the edge 23 between said broad face 2| and said narrow face 22, being slightly rounded; a support for holding said doctor blade in position adjacent the surface of said roll, said support being adapted to permit movement of said doctor blade toward and away from said roll; and pressing means associated with said support for holding said doctor blade in a position to cause indentation of the rubber covering of said roll.
2. The device of claim 1 wherein the plane of thebroad face 2| of the doctor blade is within about ten degrees of perpendicular to the undefiected surface of the roll, and the angle A between the narrow face 22 of the doctor blade and the surface-of the roll is of the order of 2 to 4 degrees.
3. The device of claim 1 wherein the blade support is provided with screw threaded connections for adjusting the magnitude of the angle A between the values of zero and ten degrees.
WILLIAM PALIWER TAYLOR.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Trist July 23, 1946
US670275A 1946-05-16 1946-05-16 Apparatus for coating paper Expired - Lifetime US2534320A (en)

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Cited By (48)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE927253C (en) * 1952-07-15 1955-05-02 Combined Locks Paper Co Device for applying coatings on both sides of a paper web
US2766721A (en) * 1952-09-22 1956-10-16 Bjorksten Res Lab Inc Apparatus for applying thixotropic material to a continuous web material
US2787242A (en) * 1954-09-30 1957-04-02 Williamson Adhesives Inc Coating applicator and method
DE1039827B (en) * 1952-12-31 1958-09-25 Champion Paper Co Ltd Squeegee for the production of coating paper or the like.
US2855895A (en) * 1954-12-22 1958-10-14 Champion Paper & Fibre Co Apparatus for coating paper
US3029780A (en) * 1958-05-19 1962-04-17 Beloit Iron Works Coater with margin control means
US3070461A (en) * 1958-09-15 1962-12-25 Beloit Iron Works Blade coater assembly and changer
US3080847A (en) * 1959-10-21 1963-03-12 Beloit Iron Works Web coating and doctoring apparatus
US3081191A (en) * 1959-02-18 1963-03-12 Mead Corp Doctor blade
US3113884A (en) * 1958-10-16 1963-12-10 Various Assignees Coating means and method
US3128207A (en) * 1961-09-07 1964-04-07 Beloit Iron Works Trailing blade coater blade loading mechanism
US3149005A (en) * 1960-01-06 1964-09-15 West Virginia Pulp & Paper Co Adjustable mounted, reciprocating doctor device including blade and air blast means
US3149988A (en) * 1962-02-23 1964-09-22 Magee Carpet Co Apparatus and method for applying a thermoplastic coating to the backing of carpet
US3152008A (en) * 1959-04-30 1964-10-06 Beloit Iron Works Method and apparatus for puddlecoater mounting, indexing and change over
US3158498A (en) * 1961-11-13 1964-11-24 Kimberly Clark Co Method of blade-coating utilizing high angles of flexible blades
US3158497A (en) * 1961-08-17 1964-11-24 Kimberly Clark Co Paper coating method employing high flexible blade pressures
US3174875A (en) * 1961-10-16 1965-03-23 Raymond A Labombarde Apparatus for smoothing coatings
US3181500A (en) * 1960-01-25 1965-05-04 Minnesota & Ontario Paper Co Apparatus for the production of coated paper
US3182632A (en) * 1962-02-05 1965-05-11 Riegel Paper Corp Coating apparatus with improved doctor means
US3187716A (en) * 1962-09-19 1965-06-08 Rice Barton Corp Coating machinery
US3195500A (en) * 1962-08-29 1965-07-20 Kimberly Clark Co Abrasive work back-up to recondition doctor blade
US3205854A (en) * 1957-12-06 1965-09-14 United Merchants & Mfg Apparatus for tip printing pleats
US3245377A (en) * 1962-06-20 1966-04-12 Kimberly Clark Co Apparatus for coating paper
DE1216094B (en) * 1962-04-24 1966-05-05 Oxford Paper Company Application device for paper webs with knife pointing in the direction of flow
US3298305A (en) * 1965-09-08 1967-01-17 Harris Intertype Corp Inking mechanism held in an indenting relationship with the form roll
US3366091A (en) * 1965-11-30 1968-01-30 Anchor Hocking Glass Corp Liquid applicator
US3607533A (en) * 1969-08-19 1971-09-21 Paste Well Corp Portable laminating machine and method
US3645202A (en) * 1970-04-03 1972-02-29 Addressograph Multigraph Lithographic inking dampening system
US3822642A (en) * 1971-08-02 1974-07-09 G Grindeland Apparatus for removing foreign particles from a lithographic press
US3886861A (en) * 1971-03-16 1975-06-03 Stork Amsterdam Squeegee mount to independently adjust squeegee angle and pressure
US3901146A (en) * 1971-02-15 1975-08-26 Alsacienne Constr Meca Squeegee mount for independent pressure and angle adjustments
US4154899A (en) * 1971-11-05 1979-05-15 Potlatch Forests, Inc. Production of porous, smooth, coated paper using high solids water-based coating compositions in blade coating apparatus
FR2408458A1 (en) * 1977-03-21 1979-06-08 Dahlgren Harold APPARATUS AND METHOD FOR DOSING INK FOR ROTARY PRESS
US4259921A (en) * 1978-12-20 1981-04-07 Inventing S.A. Selectively convertible apparatus for treating a moving web
US4279949A (en) * 1978-10-05 1981-07-21 J. M. Voith Gmbh Process and apparatus for coating webs and adjusting the wet application weight of the coating material
US4287828A (en) * 1977-05-09 1981-09-08 Dahlgren Harold P Ink metering apparatus
EP0061093A1 (en) * 1981-03-20 1982-09-29 BASF Aktiengesellschaft Doctor blade for intaglio printing by means of layers of organic plastics
EP0029865B1 (en) * 1979-12-03 1982-11-10 ZANDERS Feinpapiere AG Apparatus and process for coating moving webs of e.g. paper or board
EP0070484A1 (en) * 1981-07-13 1983-01-26 Dahlgren Manufacturing Company Ink metering apparatus with obtuse metering member
DE3129251A1 (en) * 1981-07-24 1983-02-10 Rainer 5060 Bergisch Gladbach Esser DEVICE FOR REGULATING THE ORDER WEIGHT OF COATINGS ON CONTINUOUSLY DRIVED MATERIAL
US4444147A (en) * 1981-07-13 1984-04-24 Dahlgren Harold P Coating apparatus
US4538518A (en) * 1977-03-21 1985-09-03 Dahlgren Harold P Ink metering apparatus
US4590857A (en) * 1977-03-21 1986-05-27 Dahlgren Harold P Ink metering apparatus
US4610201A (en) * 1983-08-13 1986-09-09 Heidelberger Druckmaschinen Ag Printing unit with short inking device
WO1987000092A1 (en) * 1985-07-05 1987-01-15 Oy Wärtsilä Ab Upstreams inclined doctor blade
US4817524A (en) * 1986-12-31 1989-04-04 The Boeing Company Screen printing method and apparatus
US5478599A (en) * 1993-12-29 1995-12-26 Shell Oil Company Process for resin impregnation of a fibrous substrate
US6076462A (en) * 1996-12-21 2000-06-20 Koenig & Bauer Aktiengesellschaft Method for inking a cylinder with viscous ink using doctor blades

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US2051403A (en) * 1930-07-16 1936-08-18 Warren S D Co Paper coating
US2094348A (en) * 1934-07-17 1937-09-28 Frank P Carison Method of coating
US2271458A (en) * 1936-01-03 1942-01-27 Lionne Ernest Rubber impregnated and coated web
US2355919A (en) * 1940-11-05 1944-08-15 Lipsius Samuel Coating process
US2404606A (en) * 1942-02-21 1946-07-23 Trist Arthur Ronald Method and machine for burnishing the surface of paper

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2051403A (en) * 1930-07-16 1936-08-18 Warren S D Co Paper coating
US2094348A (en) * 1934-07-17 1937-09-28 Frank P Carison Method of coating
US2271458A (en) * 1936-01-03 1942-01-27 Lionne Ernest Rubber impregnated and coated web
US2355919A (en) * 1940-11-05 1944-08-15 Lipsius Samuel Coating process
US2404606A (en) * 1942-02-21 1946-07-23 Trist Arthur Ronald Method and machine for burnishing the surface of paper

Cited By (49)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE927253C (en) * 1952-07-15 1955-05-02 Combined Locks Paper Co Device for applying coatings on both sides of a paper web
US2766721A (en) * 1952-09-22 1956-10-16 Bjorksten Res Lab Inc Apparatus for applying thixotropic material to a continuous web material
DE1039827B (en) * 1952-12-31 1958-09-25 Champion Paper Co Ltd Squeegee for the production of coating paper or the like.
US2787242A (en) * 1954-09-30 1957-04-02 Williamson Adhesives Inc Coating applicator and method
US2855895A (en) * 1954-12-22 1958-10-14 Champion Paper & Fibre Co Apparatus for coating paper
US3205854A (en) * 1957-12-06 1965-09-14 United Merchants & Mfg Apparatus for tip printing pleats
US3029780A (en) * 1958-05-19 1962-04-17 Beloit Iron Works Coater with margin control means
US3070461A (en) * 1958-09-15 1962-12-25 Beloit Iron Works Blade coater assembly and changer
US3113884A (en) * 1958-10-16 1963-12-10 Various Assignees Coating means and method
US3081191A (en) * 1959-02-18 1963-03-12 Mead Corp Doctor blade
US3152008A (en) * 1959-04-30 1964-10-06 Beloit Iron Works Method and apparatus for puddlecoater mounting, indexing and change over
US3080847A (en) * 1959-10-21 1963-03-12 Beloit Iron Works Web coating and doctoring apparatus
US3149005A (en) * 1960-01-06 1964-09-15 West Virginia Pulp & Paper Co Adjustable mounted, reciprocating doctor device including blade and air blast means
US3181500A (en) * 1960-01-25 1965-05-04 Minnesota & Ontario Paper Co Apparatus for the production of coated paper
US3158497A (en) * 1961-08-17 1964-11-24 Kimberly Clark Co Paper coating method employing high flexible blade pressures
US3128207A (en) * 1961-09-07 1964-04-07 Beloit Iron Works Trailing blade coater blade loading mechanism
US3174875A (en) * 1961-10-16 1965-03-23 Raymond A Labombarde Apparatus for smoothing coatings
US3158498A (en) * 1961-11-13 1964-11-24 Kimberly Clark Co Method of blade-coating utilizing high angles of flexible blades
US3182632A (en) * 1962-02-05 1965-05-11 Riegel Paper Corp Coating apparatus with improved doctor means
US3149988A (en) * 1962-02-23 1964-09-22 Magee Carpet Co Apparatus and method for applying a thermoplastic coating to the backing of carpet
DE1216094B (en) * 1962-04-24 1966-05-05 Oxford Paper Company Application device for paper webs with knife pointing in the direction of flow
US3245377A (en) * 1962-06-20 1966-04-12 Kimberly Clark Co Apparatus for coating paper
US3195500A (en) * 1962-08-29 1965-07-20 Kimberly Clark Co Abrasive work back-up to recondition doctor blade
US3187716A (en) * 1962-09-19 1965-06-08 Rice Barton Corp Coating machinery
US3298305A (en) * 1965-09-08 1967-01-17 Harris Intertype Corp Inking mechanism held in an indenting relationship with the form roll
US3366091A (en) * 1965-11-30 1968-01-30 Anchor Hocking Glass Corp Liquid applicator
US3607533A (en) * 1969-08-19 1971-09-21 Paste Well Corp Portable laminating machine and method
US3645202A (en) * 1970-04-03 1972-02-29 Addressograph Multigraph Lithographic inking dampening system
US3901146A (en) * 1971-02-15 1975-08-26 Alsacienne Constr Meca Squeegee mount for independent pressure and angle adjustments
US3886861A (en) * 1971-03-16 1975-06-03 Stork Amsterdam Squeegee mount to independently adjust squeegee angle and pressure
US3822642A (en) * 1971-08-02 1974-07-09 G Grindeland Apparatus for removing foreign particles from a lithographic press
US4154899A (en) * 1971-11-05 1979-05-15 Potlatch Forests, Inc. Production of porous, smooth, coated paper using high solids water-based coating compositions in blade coating apparatus
FR2408458A1 (en) * 1977-03-21 1979-06-08 Dahlgren Harold APPARATUS AND METHOD FOR DOSING INK FOR ROTARY PRESS
US4590857A (en) * 1977-03-21 1986-05-27 Dahlgren Harold P Ink metering apparatus
US4538518A (en) * 1977-03-21 1985-09-03 Dahlgren Harold P Ink metering apparatus
US4287828A (en) * 1977-05-09 1981-09-08 Dahlgren Harold P Ink metering apparatus
US4279949A (en) * 1978-10-05 1981-07-21 J. M. Voith Gmbh Process and apparatus for coating webs and adjusting the wet application weight of the coating material
US4259921A (en) * 1978-12-20 1981-04-07 Inventing S.A. Selectively convertible apparatus for treating a moving web
EP0029865B1 (en) * 1979-12-03 1982-11-10 ZANDERS Feinpapiere AG Apparatus and process for coating moving webs of e.g. paper or board
EP0061093A1 (en) * 1981-03-20 1982-09-29 BASF Aktiengesellschaft Doctor blade for intaglio printing by means of layers of organic plastics
US4444147A (en) * 1981-07-13 1984-04-24 Dahlgren Harold P Coating apparatus
EP0070484A1 (en) * 1981-07-13 1983-01-26 Dahlgren Manufacturing Company Ink metering apparatus with obtuse metering member
DE3129251A1 (en) * 1981-07-24 1983-02-10 Rainer 5060 Bergisch Gladbach Esser DEVICE FOR REGULATING THE ORDER WEIGHT OF COATINGS ON CONTINUOUSLY DRIVED MATERIAL
US4610201A (en) * 1983-08-13 1986-09-09 Heidelberger Druckmaschinen Ag Printing unit with short inking device
WO1987000092A1 (en) * 1985-07-05 1987-01-15 Oy Wärtsilä Ab Upstreams inclined doctor blade
US4889071A (en) * 1985-07-05 1989-12-26 Oy Wartsila Ab Upstreams inclined doctor blade
US4817524A (en) * 1986-12-31 1989-04-04 The Boeing Company Screen printing method and apparatus
US5478599A (en) * 1993-12-29 1995-12-26 Shell Oil Company Process for resin impregnation of a fibrous substrate
US6076462A (en) * 1996-12-21 2000-06-20 Koenig & Bauer Aktiengesellschaft Method for inking a cylinder with viscous ink using doctor blades

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