This invention relates to methods and apparatus for producing wood products. It is disclosed in the context of methods and apparatus for producing figured wood veneers, but is believed to have other applications as well.
Method and apparatus for producing figured wood veneer and other figured wood products are known. There are, for example, the methods and apparatus illustrated and described in U.S. Pat. Nos.: 7,108,031; 6,481,476; 6,298,888; 6,139,965; and, 4,865,912. The disclosures of all of these references are hereby incorporated herein by reference. This listing is not intended to be a representation that a complete search of all relevant art has been made, or that no more pertinent art than that listed exists, or that the listed art is material to patentability. Nor should any such representation be inferred.
A method for making a piece of figured veneer comprises softening lignin in a sheet of veneer, advancing the sheet of veneer between a first roller having a semi-flexible outer surface and a second roller having a corrugated outer surface to form a sheet of corrugated veneer having a plurality of crests, and surfacing the sheet of corrugated veneer to remove the plurality of crests to make the piece of figured veneer.
Illustratively, advancing the sheet of veneer between a first roller having a semi-flexible outer surface and a second roller having a corrugated outer surface comprises advancing the sheet of veneer between a first roller having a corrugated semi-flexible outer surface and a second roller having a corrugated outer surface.
Illustratively, advancing the sheet of veneer between the first roller having the semi-flexible outer surface and the second roller having the corrugated outer surface comprising engaging a first plurality of corrugations of the first roller and a second plurality of corrugations of the second roller with the sheet of veneer.
Illustratively, advancing the sheet of veneer between a first roller having a semi-flexible outer surface and a second roller having a corrugated outer surface comprises advancing the sheet of veneer between a first roller having a vulcanized elastomeric material outer surface and a second roller having a corrugated outer surface.
Illustratively, softening the lignin in the sheet of veneer comprises heating the sheet of veneer.
Illustratively, heating the sheet of veneer comprises steaming the sheet of veneer in a steamer.
Further illustratively, the method comprises drying the sheet of corrugated veneer without relieving the corrugations.
Illustratively, drying the sheet of corrugated veneer comprises passing the sheet of corrugated veneer through a veneer drying oven.
Illustratively, surfacing the sheet of corrugated veneer comprises sanding the sheet of veneer.
Apparatus for making a piece of figured veneer comprises a device for softening lignin in a sheet of veneer, and first and second rollers between which the sheet of veneer is pressed. The first roller has a semi-flexible outer surface. The second roller has a corrugated outer surface to form a sheet of corrugated veneer having a plurality of crests. The apparatus further comprises a device for surfacing the sheet of corrugated veneer to remove the plurality of crests to make the piece of figured veneer.
Illustratively, the semi-flexible outer surface comprises a vulcanized elastomeric material.
Illustratively, the device for softening lignin in a sheet of veneer comprises a steamer.
Further illustratively, the apparatus comprises a veneer drying oven for drying the piece of figured veneer.
Illustratively, the second roller comprises a steel roller.
Apparatus for making a piece of figured veneer comprises a device for softening lignin in a sheet of veneer, and complementary corrugating press rollers for pressing the sheet of veneer. Each complementary corrugating press roller has a pitch and a depth to press the sheet of veneer into a sheet of corrugated veneer having a plurality of crests. The complementary corrugating press rollers include a first roller having a semi-flexible surface.
Further illustratively, the apparatus comprises a device for surfacing the sheet of corrugated veneer to remove the plurality of crests to make the piece of figured veneer.
Illustratively, the device for surfacing the sheet of corrugated veneer comprises a sanding device.
Illustratively, the semi-flexible surface comprises a vulcanized elastomeric material.
Illustratively, the device for softening lignin in a sheet of veneer comprises a steamer.
Further illustratively, the apparatus comprises a veneer drying oven for drying the sheet of corrugated veneer without relieving the corrugations.
The invention may best be understood by referring to the following detailed description and accompanying drawings which illustrate the invention. In the drawings:
a illustrates a side view of a sheet of veneer which has been partially processed through the rolling process of
b illustrates the sheet of veneer of
c illustrates a side view of the sheet of veneer illustrated in
d illustrates a plan view of the sheet illustrated in
a illustrates another method and apparatus for making figured veneer; and
A process for producing a piece of figured veneer 50 illustrated in
Referring now to
Another process for producing a piece of figured veneer 50 comprises softening lignin in a sheet 20 of veneer, placing the sheet 20 of veneer onto a wavy or corrugated surface of a plate having such a wavy or corrugated surface, pressing the sheet 20 of veneer onto the troughs and peaks of the surface using a press roller so that the roller presses the sheet of veneer against the surface to achieve a wavy or corrugated configuration as illustrated in
Referring now to
In yet another embodiment of the process illustrated in
In yet another embodiment of the process illustrated in
The corrugated sheet 336 is then dried, for example, in a veneer drying oven 34, without relieving the corrugations. Then, the dried corrugated sheet 336 is surfaced, for example, sanded using a sander 36, to a veneer thickness 38 in the range of about .25 to about .75 mm. Through this surfacing process crests 338 of the corrugations of the corrugated sheet 336 are removed, cutting through the grain. The overall appearance of the thus-processed figured veneer 50 changes. The reflection of light change between adjacent interleaved areas 52, 54 in the figured veneer 50 creates the figured effect illustrated in
In yet another embodiment of the process illustrated in
The press roller 428 has a resilient, somewhat flexible outer surface 440, such as one formed from a vulcanized elastomeric material. One example of a vulcanized elastomeric material is 75 durometer urethane. The press roller 428 can be complementarily corrugated to the press roller 426, or can be smooth. In the embodiment illustrated in
The corrugated sheet 436 is then dried, for example, in a veneer drying oven 34, without relieving the corrugations. Then, the dried corrugated sheet 436 is surfaced, for example, sanded using a sander 36, to a veneer thickness 38 in the range of about .25 to about .75 mm. Through this surfacing process, crests 438 of the corrugations of the corrugated sheet 436 are removed, cutting through the grain. The overall appearance of the thus-processed figured veneer 50 changes. The reflection of light change between adjacent interleaved areas 52, 54 in the figured veneer 50 creates the figured effect illustrated in
In yet another embodiment of the process illustrated in
When the heated veneer 520 is pressed between the rollers 526, 528, the desired corrugated pattern is impressed into the veneer 520. The chemically-etched outer surface 530 of the press roller 526 engraves the veneer 520. The corrugated sheet 536 is then dried, for example, in a veneer drying oven 34, without relieving the corrugations. Then, the dried corrugated sheet 536 is surfaced, for example, sanded using a sander 36, to a veneer thickness 38 in the range of about .25 to about .75 mm. Through this surfacing process, crests 538 of the corrugations of the corrugated sheet 536 are removed, cutting through the grain. The overall appearance of the thus-processed figured veneer 50 changes. The reflection of light change between adjacent interleaved areas 52, 54 in the figured veneer 50 creates the figured effect illustrated in
The inventive process does not compress the fibers of the veneer 20, 120, 220, 320, 420, 520 during surfacing. As a result, the starting thickness 22, 122, 222, 322, 422, 522 of the veneer 20, 120, 220, 320, 420, 520 does not need to be as great (about 2 mm or more) as required by the prior art to generate the wavy or figured pattern. There is thus less waste produced by the inventive process. Veneer produced by the inventive process is believed to be much smoother and have a higher surface quality than figured veneer produced by prior art processes. Additionally, the described processes can be performed on either green (wet) or dry veneer with good results.
Number | Date | Country | Kind |
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PCT/US2008/082955 | Nov 2008 | US | national |
This application claims the benefit under 35 U.S.C. §120 of U.S. Ser. No. 12/741,538 filed May 5, 2010. U.S. Ser. No. 12/741,538 is the U.S. national phase of PCT/US2008/82955 filed Nov. 10, 2008. PCT/US2008/82955 claims the benefit under 35 U.S.C. §119(e) of the Nov. 19, 2007 filing date of U.S. Ser. No. 60/988,846. The complete disclosures of U.S. Ser. No. 12/741,538, PCT/US2008/82955 and U.S. Ser. No. 60/988,846 are hereby incorporated herein by reference.
Number | Date | Country | |
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60988846 | Nov 2007 | US |
Number | Date | Country | |
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Parent | 12741538 | May 2010 | US |
Child | 13547471 | US |