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Publication numberUS3595203 A
Publication typeGrant
Publication dateJul 27, 1971
Filing dateAug 2, 1968
Priority dateAug 2, 1968
Also published asDE1937847A1
Publication numberUS 3595203 A, US 3595203A, US-A-3595203, US3595203 A, US3595203A
InventorsFabulich Jack A
Original AssigneeFabulich Jack A
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Apparatus for coating edges of plank materials such as particle board plywood and-or platen board
US 3595203 A
Abstract  available in
Previous page
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Claims  available in
Description  (OCR text may contain errors)

United States Patent Jack A. Fabulich 2101 No. Baltimore. Tacoma, Wash. 98406 749,672

Aug. 2, 1968 July 27, 1971 [72] inventor [21 Appl. No. [22] Filed [45] Patented [54] APPARATUS FOR COATING EDGES 0F PLANK MATERIALS SUCH AS PARTICLE BOARD PLYWOOD AND-0R PLATEN BOARD 3 Claims, 8 Drawing Figs.

2,548,456 4/1951 Wells 3,07l,l06 l/l963 Burelbach eta] 1 1 ll8/4lOX 3,362,379 l/l968 Knodtson ll8/4ll X 3,424,836 l/1969 McKelvey et al. ll8/3l6 X Primary Examiner-John P. Mclntosh Attorney-Roy E. Mattem, Jr.

ABSTRACT: Edges of materials such as plywood and particle boards are coated and consequently sealed, producing an attractive edge appearance enhancing the utilization of such boards for shelving, etc. The apparatus and method used, continuously feeds a finishing substance having plastic properties into full contact with the edge of a board which is relatively moving by a pressurized emitting source of the plastic coating substance. This plastic emitting source structure confines the flow of plastic under pressure on board edges by utilizing a nozzle exit structure which has angular or beveled comers to receive the respective corners of particle or plywood board edges, etc., to thereby establish a uniform layer of coating across the width of the board edges without any plastic coating escaping to coat either the top or bottom surfaces of the boards.

PATENTEB JULZT 1971 saw a or 2 A TTOF/WFJ APPARATUS FOR COATING EDGES OF PLANK MATERIALS SUCH AS PARTICLE BOARD PLYWOOD AND-OR PLATEN BOARD BACKGROUND Previously, some type of apparatus has been utilized to fill voids in plywood. See US. Pat. Nos. 2,860,597, 3,071,106, and 3,362,379. However, no apparatus has been previously constructed nor utilized to coat and consequently to seal edges of plank material such as particle board, plywood and/or platen boards, and not any portions of their respective top and bottom surfaces. thereby creating a finished edge surface that requires no further processing by anyone after this initial coating during manufacture.

SUMMARY Final neat appearing fully coated, sealed edges of plywood, wood strips, particle boards, platens, chip boards, masonite, etc. are obtainable by relatively moving such sealed edge structures by a nozzle assembly through which a coating material of plastic consistency is controllably distributed under pressure across only the continuous face of the edge structure.

DRAWINGS A preferred embodiment of the apparatus for coating, and sealing edges of strip, board and/or plank materials, such as particle board, plywood, and/or platen boards is illustrated in the accompanying drawings wherein:

FIG.'I is a perspective partial view of the coating apparatus, with some portions removed;

FIG. 2 is a partial top view, with some portions removed, at the same location as shown in FIG. 1, to illustrate principally where and how the plastic coating is emitted;

FIG. 3 is a perspective view of the nozzle plate indicating the angularity;

FIG. 4 is apartial section view, taken at the nozzle plate in FIG. 2, before a plastic coating is pumped under pressure, to show how the edge to be coated is contacted and guided by the nozzle assembly;

FIG. 5 is a partial section view, taken at the nozzle plate in FIG. 2, as plastic coating is being pumped under pressure against the relatively moving edge of a particle board, for example, which is contacted and guided by the nozzle assembly;

FIG. 6 is a plan view of overall apparatus for production, with some portions removed, wherein the equipment shown in FIGS. 1,2,3 and 4 is incorporated into an edge coating or finishing conveyor assembly;

FIG. 7 is a side elevation view, with some portions removed, of the overall apparatus shown in FIG. 6, used in conveying strips, boards, planks, etc., by a nozzle assembly for applying a finished edge coating, illustrating the plastic supply system; and

FIG. 8 is a partial perspective view of a board after its edge has been coated.

PREFERRED EMBODIMENT Nozzle Assembly Throughout the views of the accompanying drawings, a preferred embodiment is shown which controllably moves and guides a board, strip, platen, etc. of plywood, particle board, etc., past its self-adjusting biased nozzle assembly from which plastic is continuously ejected under pressure on to the edge, only, of the moving board, strip, platen, etc. In this illustrated embodiment and in those of similar purpose, the predetermined coating thickness is maintained because the moving member is received and guided by a nozzle plate of the self-adjusting biased nozzle and contacts occur only at the corners of each edge surface of each member moved past the location where the plastic is emitted under pressure.

ln FIGS. 1 and 2, a particle board 10 is illustrated moving from right to left while supported on a moving conveyor belt 12. As indicated later in discussing FIGS. 5 and 6, board 10 is guided to the staging location by fences I4, 16, at least one of which is laterally or transversely adjustable to guide boards 10 of respective preselected widths.

From this staging location, the board emerges from the fencing I4, 16, but only momentarily from unguided freedom, passing soon thereafter into a guiding subassembly 20 of several edge-guiding structures. Top and bottom surface guides 22, 24 are used with each having a flared respective upand-down entry portion 26, 28 to meet and to guide the respective top 30 and bottom 32 surfaces of a board 10. These are optionally fonned separately and then secured to a nozzle body 34 by bolt 36 and nut 38 fasteners. This nozzle body 34 has a succession of plane surfaces 40, 42 and 44 to meet and to guide the edge 46 of board 10.

To insure the uniform meeting and guiding of board 10 by contacting it about its edge 46, with this guiding subassembly 20, which is a part of an overall nozzle assembly 50, the latter is pivotally mounted to a frame member and/or bracket 52. Bracket 52 in turn is secured to structure 54 which movably supports the belt 12. A bolt 56 and nut 58 provide the pivotable mounting of this nozzle assembly 50. On the opposite pivotal end from the guiding subassembly 20, a lever arm 60 of the nozzle body 34 extends between two spaced abutments 62, 64 which are both secured to bracket 52. From the abutment 64 on the right, a support screw 66 extends outwardly for the purpose of centering and positioning a coiled spring 68 which is fitted under compression between lever arm 60 and abutment 64. The spring force pivots nozzle body 34, so the nozzle assembly and its board-edge-guiding subassembly 20 will always be biased into a receiving position to meet a new board and to remain in a preset position during coating of any board. This pivoting movement of nozzle body 34 under spring force is ultimately limited by an adjustable setscrew 70 threaded through abutment 62 on the left of lever arm 60.

This guiding subassembly 20 performs the last guiding and aligning function of board edge 46 before it is coated. After and during coating there remains an ultimate guide and alignment function to be performed. This is handled by using a guiding nozzle plate 72 to complete a nozzle passage structure 74 in nozzle body 34. It is secured to nozzle body 34 by threaded bolt 76. As indicated in FIGS. 3, 4 and 5, nozzle plate 72 has two opposite-hand sides 78,80 which are formed apart by creating a lateral structure 82 which receives the.

threaded bolt 76. The opposite-hand sides 78, throughout their length extend beyond lateral structure 82. As extended, sides 78, 80 fit over the lateral extending portions 84 of nozzle body 34 to position nozzle plate 72 for securement by bolt 76 and to complete the passageway for the flow of the plastic coming through passageway 74.

The hole 86 in lateral structure 82 is oblong to allow adjustments to be made before bolt 76 is tightened. The adjustments made place nozzle plate 72 so that its opposite-hand sides 78, 80 perform the final board edge corner-guiding functions. Each side extends laterally, so its inside, 88, 90, formed on a slight bias, serves as receiving guide as shown in FIG. 3. In ad dition to the bias, each side, at the terminus of the slight bias, has an ultimate guiding and board edge corner-receiving surface 92, 94 formed on a 45 angular plane of limited width, previously referred to as a beveled or angular nozzle corner. The lateral structure 82 which receives the adjusting and hold ing bolt 76 through the oblong hole 86, laterally terminates to become in part the respective extensions 96, 98 of these ultimate guiding surfaces. Between these 45 angular plane extensions 96, 98, lateral structure 82 terminates in a plane surface 100. This surface 100 is also arranged along a 10 longitudinal angle, like the 45 angular planes 92, 94 on sides 78, 80 and the 45 angular plane extensions 96,98 on lateral structure 82.

This 10 angular direction coupled with nozzle body guiding surface 44 tends to controllably position the overall nozzle assembly 50 at this following angle" in reference to board movements, thereby avoiding chatter and assuring a uniform plastic fluid flow.

PLASTIC FLUID SUPPLY As shown in FIGS. 6, 7, 1 and 2, the plastic material 102 used to coat the board edges is pumped from containers 104 through conduit 106 as shown in FIGS. 6 and 7. At some point in conduit 106, a pump 108 is positioned, preferably having a 9 to 1 pressure ratio, preferably using a 50 to 450 pound increase, in supplying plastic 102 to nozzle assembly 50. A pressure gauge 109 is connected into conduit 106. As conduit 106 is about to terminate at nozzle assembly 50, a shutoff valve 110 with handle 112 is conveniently positioned for shutting down the plastic flow when a production run is completed. Also located along conduit 106, between pump 108 and pressure gauge 109, a pressure-regulating valve 111 is installed. It is set to assure a uniform flow of plastic out of the nozzle assembly 50 and in doing so to eliminate flow pulsations caused by pump 108.

During production runs the on-off" sequences are automatically controlled by stopping and starting pumps 108, which is selectively located along conduit 106 and equipped to be operated by its solenoid switch 114. Solenoid switch 114, in turn, receives its initiating signals through a circuit 116 controlled by contact switch 118. Switch 118 is mounted on bracket 54 and positioned with its follower contact 120 so placed to be contracted by lever arm 60 of nozzle body 34. To provide a means for adjustment nozzle body 34 is provided with a threaded bolt 122 to serve as a cam which contacts follower or pin 120 of switch 118.

Therefore, when valve 110 is opened as pump 108 is connected to a plastic supply container 104, when a board contacts nozzle assembly 50, ivoting its body 34, lever portion 60 through cam bolt 122 bears against follower 120 to operate switch 118. At this moment circuit 116 is activated resulting in switch 114 turning on pump 108. Operation of pump 108 supply is plastic from container 104, through conduit 106, flow-regulating valve 11, and valve 110 into the interior chamber 124 of nozzle body 34, utilizing a threaded fitting 126. Plastic flows under pressure from this interior chamber 124 into passageway 74.

NOZZLE-GUIDE-DISCHARGE As shown in FIGS. 1,2,3, 4 and 5, when plastic under pressure moves through passageway 74 it is guided by nozzle plate 72 which is also equipped to guide the board edge 46. By utilizing this nozzle plate 72 with its dual guiding function," a coating of plastic of preselected thickness is applied to board edge 46. As particularly shown in FIGS. 3,4 and 5, and also as earlier described, guiding nozzle plate 72 is formed to receive a board edge 46 of specified thickness by contacting only the top and bottom comers of this edge 46. Such restricted contact leaves a space between board edge 46 and plane surface 100 of nozzle plate 72. Through this clearance or resulting discharge orifice opening 128, plastic 102 is continuously discharged as a surface coating for finishing only the edge 46 of board 10 as it moves by nozzle assembly 50 during a production run. The plastic coating material 102 does not flow beyond the locations of the contacts made between the corners of the board 10 and 45 guiding beveled or angular surfaces 92, 94, 96 and 98 on guiding nozzle plate 72.

The functions of the prealignment fences 14, 16, followed by functions of guiding assembly and finally followed by functions of guiding nozzle plate 72, which is on the springbiased nozzle assembly 50, insures that the boundaries of the orifice opening 128 remain to constantly control the distribution of the applied plastic coating 130 in accordance with designated product specifications. The resulting coating 130, as illustrated in FIG. 8, has a beveled top and bottom edges 132, 134. This result improves the appearance of the finished board 10. Also, during subsequent handling and use of a coated edge board 10, the likelihood of the edge coating being bumped and chipped off at the corners is substantially eliminated.

MODIFICATIONS Throughout the drawings some assemblies are shown as being derived from many parts. Some of these parts could be made originally as one part if for example, casting production techniques were to be followed in lieu of the illustrated machined part techniques. For example, the entire nozzle assembly might be formed as a unit where no adjustments were anticipated because of different board and/or plastic material production runs.

The beveled or angular guiding surfaces might also be curved to obtain a rounded appearance of the coated hoard edge.

Also for smaller production runs, the nozzle assembly might be held as a hand unit for movement along a board edge or other surfaces, for example, which might require a strip or embossed coating.

CONCLUSION The apparatus and method illustrated and described, and in other embodiments has made it possible to coat a board edge leaving a final finish which requires no further operation. A uniform finish is obtained without creating any necessity to remove any excess along the edge or on either the top or bot tom surfaces ofa board near the edge that is coated.

Moreover, the coating is undertaken quickly by using apparatus that is easily operated and serviced and which is conveniently adapted to variable board thickness and different coating materials. For example, in one production run, 60 feet per minute of board lengths having a three-quarters of an inch edge, were coated, with plastic having a thickness of one-sixteenth to one-eighth of an inch, depending on the original board edge surface.


1. Apparatus for high-speed product finishing of edges of boards such as particle board and plywood with a coating material comprising:

a. a conveyor means to receive and to move said boards past a discharge source of edge-coating material and having means for guiding said boards up to the point of application of said material;

b. a pressurized discharge source of flowable material comprising a nozzle assembly pivotally mounted to said conveyor means, spring means for biasing said nozzle into engagement with said edge of said boards, guide means on each side of said nozzle forming a channel, said guide means engaging the faces of said board adjacent said edge to guide said nozzle along the edge of said board, a guiding nozzle plate attached to said nozzle at the point of exit from said nozzle of the board for metering said coating only on the edge portion of said board, said guiding nozzle plate means having an open channellike contour, the rear portion of said channel being adjacent the edge of said board while the side portions of said channel partially overlie the faces of said board adjacent the edge, each of said side portions having diagonal surfaces adjacent the rear interior portion of the channel, said diagonal surfaces engaging the longitudinal comers of said board accommodating variations in thicknesses of oncoming boards and also controlling the flow of coating material, thereby creating beveled top and bottom edges of the overall finished edge having a thickness also determined by the clearance between the moving edges and the open channel of the guiding nozzle plate portion, and means to supply coating material to said nozzle at a point upstream from said nozzle plate portion.

2. Apparatus, as claimed in claim 1, wherein in said means to supply coating material includes a pumping assembly having a tank, pump, distribution lines, valves, and controls, the latter being initiated by the moving particle board edges and nozzle assembly and the guiding nozzle plate portion thereof have a bias perpendicular to the moving particle board and plywood to insure steady relative motion between them creating a resulting uniform finished edge.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2065298 *May 7, 1934Dec 22, 1936Bryant Electric CoApparatus for applying conduits
US2293252 *Oct 11, 1939Aug 18, 1942United Shoe Machinery CorpFinishing edges of sheet material
US2548456 *Jul 7, 1948Apr 10, 1951Wells Arthur LPaint striping apparatus
US3071106 *Dec 13, 1960Jan 1, 1963Marlin L BurelbachPlywood edge filler
US3362379 *Oct 15, 1964Jan 9, 1968Stanley B. KnudtsonDevice for detecting and filling voids in side edges of plywood sheets or the like
US3424836 *Sep 6, 1966Jan 28, 1969Thermoproof Glass CoMethod and apparatus for applying a bead of viscous material along the surface of a member
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3753832 *Feb 8, 1971Aug 21, 1973Westvaco CorpEdge banding machine
US3807351 *Mar 19, 1971Apr 30, 1974Tuberman AEdger and feed system therefor
US3967581 *Aug 2, 1973Jul 6, 1976Irvin Edward ZirbelApparatus for applying a coating to a workpiece edge
US4226662 *Dec 28, 1978Oct 7, 1980Owens-Corning Fiberglas CorporationApparatus for treating fibrous boards
US4493286 *Jul 25, 1983Jan 15, 1985Koppers Company, Inc.Method and apparatus for applying a multi-component adhesive
US5147486 *Nov 30, 1990Sep 15, 1992Harry O. HoffmanBuilding plywood product and method
US5534295 *Mar 21, 1994Jul 9, 1996August Lotz Co., Inc.Polyurea/polyurethane edge coating and process for making
US5744172 *Dec 3, 1996Apr 28, 1998Tokai Kogyo Kabushiki KaishaExtrusion molding machine
US6231671Nov 4, 1998May 15, 20013M Innovative Properties CompanyFloating coating die mounting system
US6432237Jul 17, 1997Aug 13, 2002Henkel Kommanditgesellschaft Auf AktienSurface improving process
US6467522 *Jul 27, 1999Oct 22, 2002Castle, Inc.Edge banding apparatus and method
US6660086Mar 6, 2000Dec 9, 2003Innovative Coatings, Inc.Method and apparatus for extruding a coating upon a substrate surface
US7374795Nov 26, 2003May 20, 2008Innovative Coatings Inc.Method for extruding a coating upon a substrate surface
US7547470Apr 28, 2006Jun 16, 2009University Of Maine System Board Of TrusteesMultifunctional reinforcement system for wood composite panels
US8113143May 19, 2008Feb 14, 2012Prince Kendall WMethod and apparatus for extruding a coating upon a substrate surface
US8733276 *Jan 19, 2012May 27, 2014Airbus Operations S.A.S.Device for applying a protective material on the edge of an element
US9289795Jul 1, 2008Mar 22, 2016Precision Coating Innovations, LlcPressurization coating systems, methods, and apparatuses
US20040109946 *Nov 26, 2003Jun 10, 2004Prince Kendall W.Method and apparatus for extruding a coating upon a substrate surface
US20060263618 *Apr 28, 2006Nov 23, 2006University Of Maine,Multifunctional reinforcement system for wood composite panels
US20070020475 *Jul 21, 2005Jan 25, 2007Prince Kendall WPrimed substrate and method for making the same
US20080314312 *May 19, 2008Dec 25, 2008Prince Kendall WMethod and apparatus for extruding a coating upon a substrate surface
US20120180718 *Jan 19, 2012Jul 19, 2012Airbus Operations (S.A.S.)Device for applying a protective material on the edge of an element
CN102672778A *Jun 8, 2012Sep 19, 2012重庆什木坊门业有限公司Panel coating production line
EP0778120A1 *Dec 5, 1996Jun 11, 1997Tokai Kogyo Kabushiki KaishaExtrusion moulding machine
WO1984004262A1 *Apr 22, 1983Nov 8, 1984Boeing CoEdge finishing tool
WO2000025935A1 *Feb 12, 1999May 11, 2000Minnesota Mining And Manufacturing CompanyFloating coating die mounting system
U.S. Classification118/683, 118/410, 118/415
International ClassificationB05C5/02, B27D5/00, B29C47/02
Cooperative ClassificationB05C5/0254, B29C47/026, B27D5/003, B05C5/0204
European ClassificationB05C5/02F, B27D5/00B, B29C47/02C2, B05C5/02A