US3904335A

US3904335A - Apparatus for felting wafers in waferboard production

Info

Publication number: US3904335A
Application number: US492020A
Authority: US
Inventors: William L Watkins
Original assignee: MacMillan Bloedel Ltd
Current assignee: MacMillan Bloedel Ltd
Priority date: 1972-11-24
Filing date: 1974-07-26
Publication date: 1975-09-09
Anticipated expiration: 1992-09-09

Abstract

Apparatus including a cone mounted for rotation in a container having a peripheral wall and on to which wood wafers are directed. A plurality of tubes having upper ends opening into the container around the cone for receiving wafers as they are thrown off radially from the cone. The opposite ends of these tubes are arranged in a plurality of rows which extend transversely of a path along which supporting plates are moved so that the wafers are deposited on the plates to form mats and are evenly distributed across the plates.

Description

I Unlted States Patent 11 1 1 1 Watkins 1 Sept. 9, 1975 [54] APPARATUS FOR FELTING WAFERS IN 1,348,885 8/1920 Laffoon 222/410 X WAFERBOARD PRODUCTION 1,980,898 11/1934 Abcrnethy 425/377 X 2,032,812 3/1936 Quattrin et a1. 425/261 X [75] Inventor: William L. Watkins, Hudson Bay, 2,052,324 8/1936 Thomson 425/224 X Canada 3,076,236 2/1963 Labino 425/130 X 3,117,697 1/1964 Watson 222/330 X 1731 AS51811: 3,381,445 5/1968 Vogt 425/261 x Vancouver, Canada 3,692,612 9/1972 Carlsson et a1. 425/130 x [22] Filed: July 26, 1974 {21] AppL Nov: 492,020 Primary Examiner-Robert L. Spicer, Jr

Attorney, Agent, or Firm-Fetherstonhaugh & Co, Related US. Application Data {62] Division of Ser, No. 318,739, Dec. 27, 1972, Pat. No.

31851-031 57 ABSTRACT [30] Foreign Application Priority Data Apparatus including a cone mounted for rotation in a Nov, 24, 1972 Canada 157385 Container having 3 Peripheral Wall and to which wood wafers are directed. A plurality of tubes having [52] us. C1. 425/80; 222/330; 222/410; pp ends p n ng n h n n r round the 264/109; 425/197; 425/447 cone for receiving wafers as they are thrown off radi- 51 1111. C1. 829. 5 00 y from the cone- The Opposite ends of 11989 tubes [58] Field of Search 425/80, 81, 8, 130, 197, are arranged in a plurality of rows which extend trans 425/223 224 371441251261; 222/330 versely of a path along which supporting plates are 410; 264/199 moved so that the wafers are deposited on the plates to form mats and are evenly distributed across the 1 References Cited plates.

UNITED STATES PATENTS 7 Claims, 5 Drawing Figures 920,597 5/1909 Mallctt 222/410 X 39 W 40 23 11 1 Ill? i 26 38 1 1 32 2 1 I0 20 i 1 f "......-...'..U.. a 1

APPARATUS FOR FELTING WAFERS IN WAFERBOARD PRODUCTION This is a division of application Ser. No. 318,739 filed Dec. 27, 1972, now US. Pat. No. 3,851,031

This invention relates to apparatus for felting wood wafers in the production of waferboard.

Although this invention is primarily concerned with the felting of what is known in the trade as wafers, it can equally be used for felting wood flakes, wood particles, wood chips and the like, and the term fer is intended to include all of these.

ln the production of waferboard, wood wafers are deposited upon caul plates or the like to form a mat of substantially uniform thickness and density. The caul plates are moved into a hot press where the wafer mats are compressed under heat and pressure to produce waferboards of predetermined thicknesses.

The thickness of the wafers used in the manufacture of waferboard, is in the order of 0.010 to 0.060 inch. This means that errors in placement of only a few wafers can cause a large change in the thickness of the panels. The pressing operation can compensate to some extent for variations in the number of wafers or in the variations in the mat size. However, this will result in variations in the density of the panel produced, and this density change can seriously affect the strength properties of these panels.

It is well known in the industry to use levelling rolls for maintaining a constant volume of wafers or particles in the mats. However, these levelling rolls are only sensitive to metering by volume, while the bulk density of the mat of particles can vary considerably, resulting in variations of density and of thickness of the panel produced. In waferboard production, a panel thickness tolerance of plus or minus 0.030 inch is the maximum which can be tolerated for such uses as roof sheathing, sub-floors or underlayment.

The present invention overcomes these problems by applying the wafers at a multitude of points on to the forming line while still maintaining the uniform structure of the mat.

Apparatus for felting wafers in the production of waferboard in accordance with this invention comprises a container having a peripheral wall, a cone mounted for rotation in the container centrally thereof, power means for spinning the cone, means for directing a stream of wood wafers on to the cone, conveying means for moving supporting plates along a path spaced below said container, and a plurality of tubes having upper ends opening into the container and arranged around the cone, said tubes having lower ends arranged in rows extending transversely of said path and across the width ofthe supporting plates, said tubes distributing the wafers evenly on to the moving plates across the width thereof to form thereon felted mats of predetermined thickness and density. The wafers are generally fed at a uniform rate of the cone but by the very nature of the production of these wafers and the wafers themselves there is bound to be variations in the feed rate or the density of the wafers being fed to the apparatus at any given time. The spinning cone spreads out or directs the wafers to the upper ends of the tube so that changes in the rate of feed do not materially affect distribution of the wafers. The wafers are mainly directed against the apex of the cone but if the discharge is a little off the center, the arrangement of the upper and lower ends of the tubes is such that there still is an even distribution of the wafers across the mats being formed.

An example of apparatus according to this invention is illustrated in the accompanying drawings, in which FIG, 1 is a cross-section through the supporting plate path and showing the apparatus in elevation,

FIG. 2 is a plan view of the apparatus,

FIG. 3 is a side elevation partly inspection of this apparatus, and

FIGS. 4 and S diagrammatically illustrate the ar rangement of the upper and lower ends, respectively, of the tubes of this apparatus.

Referring to the drawings, 10 is felting or distributing appparatus in accordance with this invention which is located above a conveyor belt 1] for moving supporting plates, such as caul plates 12, along a path indicated by arrow 13 beneath apparatus 10.

Apparatus 10 includes a container 20 suitably supported above conveyor 11 and having a bottom 22 and an annular peripheral wall 23. A cone 26 is supported in any suitable manner in the container with its base just above the bottom 22. In this example, the cone is mounted on a vertical shaft 28 which extends through bottom 22 and is rotated in any suitable manner, such as by means of an electric motor 29, which is opera tively connected to the drive shaft by means of a belt and pulley arrangement 30, see FIG. 3. The peripheral edge 32 of cone 26 is spaced from container wall 23, and a plurality of tubes 35 have upper ends communicating with the interior of container 20 through openings 36 formed in bottom 22 and arranged around the cone. It will be noted that the surface 38 of the cone extends downwardly in a curve from the cone apex 39 to the peripheral edge 32 of the cone. Wafers are directed in to the apex of the cone by tube 40.

Tubes 35 extend downwardly from container 20 and have lower ends 42 that are arranged in four rows E, F, G and H above and extending transversely of the path of travel 13 of the caul plates 12. By referring to FIG. 5, it will be seen that each of these rows extends completely across the caul plate so that flakes, wafers or particulate material travelling downwardly from tubes 35 are distributed across the width of the plate.

It is essential to distribute the wafers evenly across each caul plate and to form a mat thereon of uniform thickness and density. This is greatly assisted by the arrangement of the lower ends of the tubes in the rows E to H, In the diagram of FIG. 4, tubes are numbered I to 6, and there is a group of these tubes 1 to 6 in each quadrant of the circle formed by container 20. The tubes in the different quadrants are also labelled a, b, c' and (I. The upper ends of the tubes are numbered 1 to 6 in sequence in each quadrant, and the letter of the row in which the lower end of each tube is positioned appears opposite each number. For example, tubes in to have their lower ends opening respectively into rows E, F, E, G, H G. By referring to FIG. 5 it will be seen that row E, for example, includes tubes la, 2a, 3a, 4(, 5b, 6c. The reason for this is that should the feed of the wafers get off centre, that is, off apex 39, or if there is a sudden mass of the flakes directed to container 20, there still will be an even distribution of the flakes across the mat being formed. Taking the tubes of quadrant a, for example, it will be seen that 1a is in row E, 20 in row F, 311 in row E, 4a in G, 50 in row H, and 6a in row G, and these in effect make a line across the mat.

Although the spinning cone 20 tends to distribute Lne wafers evenly around the upper ends of the tubes even when the feed tube 40 is off centre or there is a sudden mass of flakes directed into the container, this particular arrangement of the lower ends of the tubes helps in the equal distribution of the flakes across the mat. The distribution is always evenly across the mat, although there can be slight differences in the longitudinal direction owing to the fact that the lower ends of the tubes are in different rows and these are spaced longitudinally of the mat. However, the longitudinal spacing is relatively small, and in actual practice mats of uniform thickness and substantially uniform density are formed.

It will be understood that the actual arrangement of the lower ends of the tubes may be different from that illustrated in FIG. 5, but the main thing is that the tubes of each quadrant form a line across the path of travel of the mat, although this line is not necessarily straight across. The advantage of this will be seen from the following. lf, for example, there is a larger than usual amount of flakes directed to the adjacent ends of quadrants a and d, affecting tubes 1 to 3 and 4 of quadrant a and

tubes

5 and 6 of quadrant d, the line would be as follows across the mat: laE, F, 3aE, 40G, 50G, and SdH. Thus, no matter where there is a concentration of flakes around the upper ends of the tubes, the discharge at the increased rate will in effect be completely across the path of travel.

The lower ends of the tubes are flexible and not necessarily directly in line behind one another. In some cases it is desirable to move the ends slightly out of position to compensate for small irregularities in the mat. Those can be caused by excessive bending of the tubes thus interfering with the free fall of the wafers after they enter the tube.

In the production of waferboards there usually are a plurality of these felting heads, each head being a container with its tubes, arranged in succession over the path of the supporting plates. For example, there can be four of these heads, in which case the first and fourth heads, with respect to the direction of movement of the plates, direct wafers prepared for the face layers or sections of the waferboards on to the plates, and the second and third heads direct wafers for the inner or core section of the boards. Usually, better quality wafers are used for the face layers.

I claim:

1. Apparatus for felting wood wafers in production of waferboards comprising a container having a peripheral wall, a cone mounted for rotation in the container centrally thereof, power means for spinning the cone, means for directing a stream of wood wafers on to the cone, conveying means for moving supporting plates along a path spaced below said container, and a plurality of tubes having upper ends opening into the container and arranged around the cone, said tubes extending downwardly without extreme bends to lower ends located immediately above the supporting plates moving along the path, said lower ends being arranged side by side in rows extending transversely of said path and across the width of the supporting plates, said tubes distributing the wafers evenly on to the moving plates across the width thereof to form thereon felted mats of uniform predetermined thickness.

2. Apparatus as claimed in claim 1 in which directing means is positioned to direct the wafers on to the apex of the cone.

3. Apparatus as claimed in claim 1 in which the upper ends of said tubes are arranged substantially in a circle around the base of the cone, and the lower ends of the tubes of each quadrant of the circle are arranged in various rows of the tubes.

4. Apparatus as claimed in claim 1 in which the upper ends of said tubes are arranged substantially in a circle around the base of the cone with six tubes in each quadrant of the circle, and the lower ends of the tubes are arranged in four transverse rows with the lower ends of the tubes of each quadrant in various rows.

5. Apparatus as claimed in claim 2 in which the upper ends of said tubes are arranged substantially in a circle around the base of the cone, and the lower ends of the tubes of each quadrant of the circle are arranged in various rows of the tubes.

6. Apparatus as claimed in claim 2 in which the upper ends of said tubes are arranged substantially in a circle around the base of the cone with six tubes in each quadrant of the circle, and the lower ends of the tubes are arranged in four transverse rows with the lower ends of the tubes of each quadrant in various rows.

7. Apparatus for felting wafers in waferboard production, comprising means for moving supporting plates longitudinally along a path, a container above the level of said path and having a bottom and a peripheral wall, a cone mounted for rotation centrally of said bottom and spaced from the peripheral wall, a plurality of tubes having upper ends opening through the container bottom between said cone and the peripheral wall, said tubes being arranged with their upper ends around the cone in consecutive groups and extending downwardly without extreme bends to lower ends located immediately above the supporting plates moving along the path, said lower ends being arranged side by side in rows extending across said path, said rows being spaced apart longitudinally along the path, the lower ends of each of said groups being arranged in various rows, and means for directing wood wafers on to the cone near the apex thereof, said cone flinging the wafers radially outwardly to the upper ends of the tubes to be directed by said tubes on to supporting plates moving beneath the lower ends of the tubes and across the width of said plates to form felted mats of uniform predetermined thickness thereon.

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