This disclosure generally relates to stickers used to stack lumber for drying, and more specifically relates to an extruded aluminum sticker.
Lumber is typically sawn from a tree when the tree is green. Green lumber must be dried before it can be used. It is well-known to stack green lumber into layers separated by sticks known in the art as “stickers,” which provide spaces between the layers of lumber that allow the lumber to dry properly. Many different kinds of stickers have been developed and used over the years. The most common stickers are wooden sticks that have a square or slightly rectangular cross-section. The problem with these stickers is they have a limited life and must be replaced after a relatively small number of drying cycles. The typical life of a wood sticker is 8-15 drying cycles.
One type of wooden sticker known in the art is made of Ipê wood (also called Brazilian walnut), which is taken from trees in the rain forests of Central and South America and Indonesia. Stickers made of Ipê wood are used because they are very dense and therefore have a longer life than stickers made of other types of wood, lasting as long as 30-40 cycles. However, the use of Ipê wood for stickers is contributing to deforestation of the Central, South American and Indonesian forests. It would be preferable to use other materials for stickers to prevent over-harvesting of certain slow-growth trees, especially those in the rain forests, for wooden stickers.
Many different types of stickers that are made of plastic have been developed. For example, the following United States Patents all Show Various Stickers that are Made of plastic: U.S. Pat. Nos. 4,788,777; 5,345,695; and 9,851,148. The stickers in these patents have different configurations, but each has some features that are not desirable, such as being heavier than they need to be, not providing a surface that grips the wood, and having a configuration that is easily plugged up with wood fibers. In addition, plastic stickers may not be able to withstand the level of heat in high-temperature kilns that range from 225-300 degrees Fahrenheit (107-149 degrees Celsius). Thus, there is a need for a sticker that does not have these undesirable features.
A sticker for spacing wood is extruded from an aluminum alloy. The sticker can have different configurations. In a first configuration, the sticker has a width about the same as its height, with longitudinal ridges on all sides that grip wood when wood is stacked on the sticker. In a second configuration, the sticker has a width significantly greater than its height, with longitudinal ridges on the top and bottom surfaces, and with smooth side surfaces. The longitudinal ridges have a height within a specified range and are spaced at a distance peak-to-peak within a specified range. The ridges provide good grip of lumber stacked on the sticker yet do not easily plug with wood fibers through repeated use. The extruded aluminum sticker is very rugged and can be used for hundreds or even thousands of drying cycles.
The foregoing and other features and advantages will be apparent from the following more particular description, as illustrated in the accompanying drawings.
The disclosure will be described in conjunction with the appended drawings, where like designations denote like elements, and:
A sticker for spacing wood is extruded from an aluminum alloy. The sticker can have different configurations. In a first configuration, the sticker has a width about the same as its height, with longitudinal ridges on all sides that grip wood when wood is stacked on the sticker. In a second configuration, the sticker has a width significantly greater than its height, with longitudinal ridges on the top and bottom surfaces, and with smooth side surfaces. The longitudinal ridges have a height within a specified range and are spaced at a distance peak-to-peak within a specified range. The ridges provide good grip of lumber stacked on the sticker yet do not easily plug with wood fibers through repeated use. The extruded aluminum sticker is very rugged and can be used for hundreds or even thousands of drying cycles.
Referring to
As shown in
The sticker 100 includes at least one substantially hollow longitudinal internal chamber. In the specific configuration shown in
The top, bottom and sides of sticker 100 preferably have a thickness T1 shown in
Sticker 100 is suitable for use in stacking lumber when the stickers are placed manually by a worker, and can also be used by some existing automated stackers. In the most preferred implementation, the configuration of the top surface, bottom surface, and both side surfaces is identical, so it doesn't matter whether the sticker is right side up or upside down or sideways. Regardless of how the sticker 100 is placed on a stack of lumber, the sticker 100 will have the orientation shown in
Referring to
The top and bottom surfaces of sticker 600 preferably include ridges 610, which can be ridges similar to the ridges 110 shown in
The number of ridges on any surface of the extruded aluminum sticker is preferably at least three, is more preferably at least four, and is most preferably at least five, as shown in
The top, bottom and sides of sticker 600 preferably have a thickness T2 shown in
While
The top, bottom and sides of cross-out 1010 preferably have a thickness T3 shown in
The extruded aluminum cross-out provides significant advantages compared with known wood cross-outs. When shipping lumber overseas, wood cross-outs must be heat treated to destroy pests. In addition, the use of wood cross-outs has to be logged to account for the number of times each wood cross-out is used because wood cross-outs degrade over time. The extruded aluminum cross-out eliminates the need for heat treating to destroy pests and eliminates the logging of the number of uses since the extruded aluminum cross-outs do not degrade over time. The extruded aluminum cross-out also enjoys many of the benefits described with respect to the extruded aluminum sticker, including improved flatness and shape retention, improved straightness, and no deterioration or change in dimensions with use, thereby providing an improved foundation on which to place lumber stacks.
The internal and external configuration for the sticker disclosed and claimed herein can vary. For example,
The longitudinal ridges on the extruded aluminum sticker can have any suitable configuration or cross-section.
The extruded aluminum sticker disclosed herein can be made from any of the following known series of aluminum alloys: 3000, 4000, 5000, 6000 or 7000. In particular, the 3003, 5052, 6005A, 6061, 6063, and the 7000 are the preferred alloys in this group. The characteristics and specifications for each of these aluminum alloys is published and well-known in the art. In the most preferred implementation, the preferred aluminum alloy is 6005A with a T5 or T61 temper, as this aluminum alloy and these tempers provides a great combination of strength, manufacturability, durability and economy for the extruded aluminum stickers disclosed and claimed herein.
A method 2600 in
Referring to
A comparison of the extruded aluminum sticker disclosed herein with other known stickers shows the many advantages of the extruded aluminum sticker. We start first by comparing the extruded aluminum stickers with smooth wood stickers that have been in use for drying lumber for over a century. As discussed in the Background of the Invention section above, the typical life of a wood sticker is 8-15 drying cycles. Wood stickers made of Ipê wood (also called Brazilian walnut) can last as long as 30-40 cycles, but Ipê wood is taken from trees in the rain forests of Central and South America and Indonesia, thereby contributing to the deforestation of the rain forests. The extruded aluminum stickers disclosed herein will last for hundreds or even thousands of cycles. Even though the extruded aluminum stickers have a much higher manufacturing cost than smooth wood stickers, the long life of the extruded aluminum stickers produces substantial cost benefits over time. In addition, the extruded aluminum stickers do not contribute to the deforestation of rain forests. Furthermore, standard wood stickers have a smooth surface that does not bite into the wood, allowing lumber to slide on the stickers as stacks are moved with a forklift. The extruded aluminum stickers are more economical over time, more eco-friendly, and grip the wood in a stack so the wood does not slide on the extruded aluminum stickers.
Another advantage of extruded aluminum stickers compared to wood stickers is extruded aluminum stickers can be stored outside in the weather, where wood stickers need to be stored inside to prevent damage from the weather. Extruded aluminum stickers do not absorb or hold moisture. Extruded aluminum stickers can be used in a hot, humid environment and can be used in a very cold environment without affecting their performance and without the extruded aluminum stickers degrading over time.
Several different types of plastic stickers have been developed over time, including extruded plastic stickers. The extruded aluminum stickers disclosed herein have several advantages over extruded plastic stickers. The manufacturing tolerances on extruded aluminum stickers are substantially better than the manufacturing tolerances on extruded plastic stickers, resulting in better consistency of product. Extruded plastic stickers sometimes have a tendency to twist as they cool, thereby rendering all or a portion of a long extrusion unsuitable for use as a sticker. The unusable plastic is typically ground up and reused by adding the ground plastic to a different batch. The extruded aluminum stickers, in contrast, have tight manufacturing tolerances, typically to about 0.005 in. (0.13 mm), and are not prone to twist or warp. In addition, the stretching step for the long extrusions (see 2550 in
Aluminum in the extruded aluminum stickers disclosed herein is stronger than wood or plastic, and requires less material to support a lumber stack. In addition, the extruded aluminum stickers are much better conductors of heat than wood or plastic stickers. As a result, the heat in a kiln is transferred easily to the extruded aluminum stickers, which transfers its heat to the surfaces of the lumber stacked on the extruded aluminum stickers clear to the core of the lumber stack. The good heat conduction of the extruded aluminum stickers allows more uniform heat to be applied and permits the drying process to be controlled with fewer variations than when using wood or plastic stickers. Fewer variations means more uniform and repeatable consistency over the processes used when compared to using wood or plastic stickers. The good heat conduction of the extruded aluminum stickers may reduce the time to dry the lumber in the kiln, leading to greater throughput of lumber though the kiln and less energy consumed to dry the lumber. Furthermore, the extruded aluminum stickers can last for hundreds or even thousands of cycles. Both wood and plastic stickers are prone to break after some uses, and must be replaced. Both wood and plastic stickers degrade over time. Extruded aluminum stickers, in contrast, retain their strength over time, and can even become stronger through a process commonly referred to as age-tempering. In addition, extruded aluminum stickers can be easily recycled when they reach the end of their life or become damaged. The extruded aluminum stickers are actually much more economical and more eco-friendly that wood or plastic stickers.
The use of wood stickers can also attribute to degrade issues in lumber. According to a study performed in 1973 by Simpson Timber Company, a survey of one mill estimated that drying-related degrade due to the use of wood stickers reduces by at least one grade in at least 5% of the volume of output. This degrade is directly attributed to wooden stickers that are damaged but still in use, or that may become damaged during the drying process. The breakage factor in wood stickers was calculated to be 10.7% of wood stickers lost per kiln charge. Because the extruded aluminum stickers do not break while in use, the use of extruded aluminum stickers significantly reduces the degrade of lumber associated with using traditional wood stickers. In addition, it is believed the use of the extruded aluminum stickers disclosed herein will result in reduction in crook found in dried lumber after the lumber is removed from the kiln.
U.S. Pat. No. 4,788,777 (the '777 patent) discloses an extruded rectangular sticker made of a mixture of polycarbonate resin, polysulfone resin and glass fiber. The primary problem with the configurations of stickers shown in the '777 patent is they have a smooth top and bottom surface. With a sticker that has smooth top and bottom surfaces as shown in the '777 patent, the stickers will not be able to grip the wood stacked on the stickers. This is a problem because stacks of wood are typically moved into a kiln and removed from a kiln using forklifts. With the smooth stickers in the '777 patent, a stack of lumber would have the tendency to slide off the stickers because the surfaces of the stickers are smooth.
The problem with the sticker disclosed in the '777 patent discussed above is eliminated in the extruded aluminum sticker disclosed and claimed herein. The ridges on the extruded aluminum sticker disclosed herein bite into the wood, preventing lumber from sliding on the extruded aluminum stickers.
U.S. Pat. No. 5,345,695 (the '695 patent) discloses a channel-shaped sticker made of metal or plastic. The stickers in the '695 patent have smooth faces that cannot grip the wood. The ridges on the extruded aluminum stickers disclosed herein grip the wood, preventing a stack of wood from sliding as the stack is transported by a forklift.
U.S. Pat. No. 9,851,148 (the '148 patent) discloses an extruded polycarbonate sticker that includes multiple longitudinal ridges that contact wood. The ridges in the '148 patent are small enough and close enough together that they are easily clogged with wood fibers, and wear off over time as the extruded polycarbonate sticker is used. The extruded polycarbonate sticker in the '148 patent further includes lateral ridges as well as longitudinal ridges that create cross-hatched ridges and grooves, as shown in
Extruded aluminum stickers have been used to dry lumber. Known extruded aluminum stickers are tubular aluminum have a square or rectangular cross-section and a hollow center that has no reinforcing members. An extruded aluminum sticker that has a hollow center without any reinforcing members will need to have wall thicknesses substantially greater than what is required for the extruded aluminum stickers disclosed herein because of the reinforcing members (e.g., 130 in
In the softwood industry, most of the stacking of lumber on stickers is done by stacking machines that alternatively place the stickers, then stack a layer of wood, then place the next layer of stickers, followed by the next layer of wood, and so on. Many of the existing stacking machines in the softwood industry expect a rectangular sticker. For these machines, the configuration shown in
The disclosure herein supports a sticker for spacing wood comprising: an extruded body made of an aluminum alloy, the extruded body comprising: a top surface comprising a first plurality of longitudinal ridges that have peaks that are separated by at least 0.06 in. (1.5 mm) and no more than 0.4 in. (10 mm) peak-to-peak; and a bottom surface comprising a second plurality of longitudinal ridges that have peaks that are separated by at least 0.06 in. (1.5 mm) and no more than 0.4 in. (10 mm) peak-to-peak.
The disclosure herein additionally supports a sticker for spacing wood comprising: an extruded body made of an aluminum alloy, the extruded body comprising: a top surface comprising a first plurality of longitudinal ridges that each has a height from 0.01 in. (0.25 mm) to 0.05 in. (1.3 mm); and a bottom surface comprising a second plurality of longitudinal ridges that each has a height from 0.01 in. (0.25 mm) to 0.05 in. (1.3 mm).
The disclosure herein additionally supports a sticker for spacing wood comprising: an extruded body made of aluminum alloy, the extruded body comprising: a plurality of substantially hollow longitudinal internal chambers; a top surface comprising: at least five top longitudinal ridges that are each separated from adjacent longitudinal ridges by at least 0.10 in. (2.5 mm) peak-to-peak and by no more than 0.3 in. (7.6 mm) peak-to-peak, wherein each of the top longitudinal ridges has a height from 0.02 in. (0.51 mm) to 0.032 in. (0.81 mm); and a bottom surface comprising: at least five bottom longitudinal ridges that are each separated from adjacent longitudinal ridges by at least 0.10 in. (2.5 mm) peak-to-peak and by no more than 0.3 in. (7.6 mm) peak-to-peak, wherein each of the bottom longitudinal ridges has a height from 0.02 in. (0.51 mm) to 0.032 in. (0.81 mm); and a first side surface that connects the top surface to the bottom surface, the first side surface comprising a first substantially smooth exterior surface that has no longitudinal ridges; and a second side surface that connects the top surface to the bottom surface, the second side surface comprising a second substantially smooth exterior surface that has no longitudinal ridges.
A sticker for spacing wood is extruded from an aluminum alloy. The sticker can have different configurations. In a first configuration, the sticker has a width about the same as its height, with longitudinal ridges on all sides that grip wood when wood is stacked on the sticker. In a second configuration, the sticker has a width significantly greater than its height, with longitudinal ridges on the top and bottom surfaces, and with smooth side surfaces. The longitudinal ridges have a height within a specified range and are spaced at a distance peak-to-peak within a specified range. The ridges provide good grip of lumber stacked on the sticker yet do not easily plug with wood fibers through repeated use. The extruded aluminum sticker is very rugged and can be used for hundreds or even thousands of drying cycles.
One skilled in the art will appreciate that many variations are possible within the scope of the claims. Thus, while the disclosure is particularly shown and described above, it will be understood by those skilled in the art that these and other changes in form and details may be made therein without departing from the spirit and scope of the claims.
Number | Name | Date | Kind |
---|---|---|---|
D22187 | Harsha | Jan 1893 | S |
3365517 | Barth | Jan 1968 | A |
D216014 | Dupont | Nov 1969 | S |
3686817 | Adams | Aug 1972 | A |
3900957 | Denton et al. | Aug 1975 | A |
4059914 | Dobson | Nov 1977 | A |
4199870 | Arsenault | Apr 1980 | A |
4663860 | Beall | May 1987 | A |
4788777 | Davis | Dec 1988 | A |
4811516 | Anderson | Mar 1989 | A |
5131559 | Ariyoshi et al. | Jul 1992 | A |
D343350 | Gold | Jan 1994 | S |
5345695 | Graham | Sep 1994 | A |
5461836 | Yang | Oct 1995 | A |
D372539 | Davies | Aug 1996 | S |
D378347 | Bain | Mar 1997 | S |
5813137 | Townsend | Sep 1998 | A |
6134803 | Gilchrist | Oct 2000 | A |
D451612 | Thibault et al. | Dec 2001 | S |
6345652 | Townsend | Feb 2002 | B1 |
6517926 | Therrien | Feb 2003 | B1 |
RE38118 | Townsend | May 2003 | E |
7003898 | Aaron | Feb 2006 | B2 |
D538219 | Rakow | Mar 2007 | S |
D569655 | Williams | May 2008 | S |
7926199 | Aaron | Apr 2011 | B2 |
D664025 | Horn | Jul 2012 | S |
D664921 | Stone et al. | Aug 2012 | S |
D689206 | Ellsworth | Sep 2013 | S |
8556976 | Jacofsky | Oct 2013 | B2 |
9121177 | Sorkin | Sep 2015 | B1 |
D744666 | Weber | Dec 2015 | S |
9309714 | Nieminen | Apr 2016 | B2 |
D796344 | Paulick | Sep 2017 | S |
9845990 | Wagner | Dec 2017 | B2 |
9851148 | Templeman et al. | Dec 2017 | B2 |
D807153 | Templeman et al. | Jan 2018 | S |
D826694 | Templeman et al. | Aug 2018 | S |
10234203 | Townsend | Mar 2019 | B2 |
10365041 | Templeman et al. | Jul 2019 | B2 |
D902695 | Pettey | Nov 2020 | S |
D939331 | Comalander | Dec 2021 | S |
20010000875 | Townsend | May 2001 | A1 |
20070101608 | Sundholm | May 2007 | A1 |
20120047844 | Walker | Mar 2012 | A1 |
20130145971 | Federl et al. | Jun 2013 | A1 |
20180099319 | Pettey | Apr 2018 | A1 |
20220299266 | Templeman | Sep 2022 | A1 |
Number | Date | Country |
---|---|---|
2009105253 | Aug 2009 | WO |
Entry |
---|
Tuff Stik, professional-grade dry kiln sticks by Redwood, from tuff-stik.com, copyright 2020 (Year: 2020). |
The Softwood Forest Products Buyer, “Military Grade Aluminum Alloy Stacking Sticks Now Available”, vol. 35. No. 5, Sep./Oct. 2020. |
Brown, Lawrence D., “Dry Kiln Sticker Repair Costs and Procedures”, 15th Meeting of the Western Dry Kiln Clubs, 1963. |
Denig et al, “Drying Hardwood Lumber”, USDA Forest Service Forest Products Laboratory General Technical Report FPL-GTR-118, 2000. |
Rash, James K., “Engineered Kiln Stickers—A New Way to Save Costs”, Chemicals Division Simpson Timber Company, Portland, Oregon, 1973. |
Peabody et al., “Plastic Stickers for the Kiln Drying Operation”, Portland Industrial Plastics Company, 1971. |
Teesdale, L.V., “The Kiln Drying of Southern Yellow Pine Lumber”, US Dept. of Agriculture, Jan. 1930. |
Hendess et al., “Pipe and Tubing Extrusion”, The SPE Guide on Extrusion Technology and Troubleshooting, Society of Plastics Engineers, 2001. |
Bond et al., “A Decade of Improved Lumber Drying Technology”, Curr. Forestry Rep. 2:106-118, 2016. |
Guner, Ozgur, “Evaluation of Wood and Aluminum Stickers and their Stains on Heat Treated Spruce Boards”, Master's Thesis, Lulea University of Technology, Feb. 2009. |
The Forestry Forum, “Recommentations for synthetic stickers”, printed from https://forestryforum.com/board/index.php?topic=88309.0 on Mar. 15, 2021, Jan. 26, 2016. |
Wood-Mizer, “Introduction to Kiln Drying”, printed from https://irp-cdn.multiscreensite.com/b7d5533c/files/uploaded/KLN%20INT%20ENG%20MAY%202016_lo.pdf on Mar. 15, 2021, 2016. |
Zhang et al., “An Experimental Study of the Characteristics of Fluid Flow and Heat Transfer in the Multiport Mocrochannel Flat Tube”, Abstract, Applied Thermal Engineering, vol. 65, Issues 1-2, p. 209-216, retrieved from https://reginnovations.org/key-scientific-articles/experimentalstudy-characteristics-fluid-flow-heat-transfer-multiport-microchannel-flat-tube/, Apr. 2014. |
Number | Date | Country | |
---|---|---|---|
20220297173 A1 | Sep 2022 | US |