Method for more efficient use of smaller diameter trees

Information

  • Patent Grant
  • 6279629
  • Patent Number
    6,279,629
  • Date Filed
    Tuesday, October 31, 2000
    23 years ago
  • Date Issued
    Tuesday, August 28, 2001
    22 years ago
  • Inventors
  • Examiners
    • Bray; W. Donald
    Agents
    • Jenny; Robert W.
Abstract
The subject basic method and its modifications are used to provide logs reconstituted from smaller diameter trees up to 12 inches diameter at their bases. The basic method is practiced using the following steps:1. Cutting felled trees at cutting points into a plurality of segments which, naturally, are tapered, each segment having a length, a larger diameter end and a smaller diameter end, the length being in a range of random lengths such that the larger end diameter is in a range of 0.2 to 2.0 inches larger than the smaller end diameter, with 0.2 inch preferred;2. selecting from the plurality of segments cut from one or more trees, a plurality of groups of segments which have smaller end diameters no more than ½ inch different;3. joining segments from each group end-to-end to form reconstituted logs of optimum lengths for processing into wooden structural units.In one modification of the basic method, flawed portions are removed from the logs prior to cutting them into segments. In a second modification the individual segments are processed into wooden structural units which can be joined end-to-end to provide longer units. A third modification incorporates both the removal of flawed portions and the processing of the segments as stated for the second modification.The subject method reduces wastage by as much as 80%.
Description




BACKGROUND OF THE INVENTION




FIELD: The subject invention is in the field of harvesting and milling trees, particularly the smaller diameter trees such as those harvested in the process of thinning trees on tree farms. The supply of wood is diminishing while the need for it is increasing and therefore it has become economically feasible and more important to use the smaller trees and to use them as efficiently as possible in terms of using as much of the tree as feasible while improving the quality of the end product called lumber.




In conventional milling of the smaller diameter trees, the trunks are cut into logs having lengths of 8, 10, 12, 16, 20 and 24 feet, depending on the diameters of the tapered trunks at their bases. The logs are then sawed to produce rough sawn lumber and there is considerable wastage, particularly when the end product is geometrically perfect rough sawn lumber. Significant reduction of wastage and end product improvement are achieved using techniques disclosed in U.S. Pat. No. 5,896,723, issued to the inventor of the subject invention. These techniques involve sawing the logs so that they have two parallel flat sides or a basically rectangular or square cross section shape with radiused corners called wanes. These logs are then sawn in half lengthwise and the halves reassembled with the outer surfaces that are parallel to the saw-cut glued together. The reassembled logs are then sawed in half lengthwise again with the cut perpendicular to the outer surfaces, yielding two boards flat on three sides and having an indentation in the center of the fourth side. This product has high quality because the wood originally at the center of the log is at its exterior where its superior strength is most effective. Also, U.S. Pat. No. 5,896,723 explains in considerable detail the fabrication of a variety of wooden structural units made from this product. In the procedures disclosed in patent ′723 harvested logs are used in their harvested condition and lengths. This incurs some wastage because, since the trees are tapered and the product is not, the material removed in eliminating the taper is wasted.




The simultaneous increasing need for wood and decreasing supply make it important to further increase the efficiency of producing, from smaller diameter trees, the wood products described above by decreasing wastage and further improving the quality of the end products. Accordingly, the objective of the subject invention is to provide a method for more efficient use of smaller diameter trees, decreasing wastage and further improving quality of the end products.




SUMMARY OF THE INVENTION




The subject invention is a method for more efficient use of smaller diameter trees, i.e. trees having diameters in a range of 3 inches to 12 inches, some of the uses being based on techniques disclosed in U.S. Pat. No. 5,896,723. Wastage is reduced and product quality is improved by the subject method.




In executing the method described below, fallen trees are cut into segments and the cuts are made at points at which the diameters of the tree are suitable to production, with minimal wastage, of wooden structural units which have specific cross sectional dimensions and similar grain patterns and structure; i.e. similar cross sectional conditions. For purposes of this disclosure these points are called cutting points.




Starting with felled trees, the basic method comprises the steps of:




1. Cutting felled trees at cutting points into a plurality of segments which, naturally, are tapered, each segment having a length, a larger diameter end and a smaller diameter end, the length being in a range of random lengths such that the larger end diameter is in a range of 0.2 to 2.0 inches larger than the smaller end diameter, with 0.2 inch preferred;




2. selecting, from the plurality of segments cut from one or more trees, a plurality of groups of segments which have smaller end diameters different in a range of 0.0 to 2.0 inches with 0.0 preferred;




3. joining segments from each group end-to-end to form reconstituted logs of optimum lengths for processing into wooden structural units;




A first modification of the basic method comprises the steps of:




1. Cutting felled trees transversely to remove defective portions such as knots, split portions and warped portions;




2. cutting the remaining portions at cutting points into segments which are, naturally, tapered, each segment having a length, a larger diameter end and a smaller diameter end, the length being in a range of random lengths such that the larger diameter end is in a range of 0.2 to 2.0 inches larger than the smaller diameter end;




3. selecting, from the plurality of segments cut from the remaining portion of one or more trees, a plurality of groups of segments which have smaller end diameters different in a range of 0.0 to 2.0 inches with 0.0 preferred;




4. joining segments from each group end-to-end to form reconstituted logs of optimum lengths for processing into wooden structural units.




A second modification of the basic method comprises the steps of:




1. Cutting felled trees at cutting points into a plurality of segments which, naturally, are tapered, each segment having a length, a larger diameter end and a smaller diameter end, the length being in a range of random lengths such that the larger end diameter is in a range of 0.2 to 2.0 inches larger than the smaller end diameter, with 0.2 inch preferred;




2. processing the segments with processing varying from minimal trimming to cutting lengthwise into a plurality of pieces, each of the pieces having specific cross sectional conditions;




3. selecting, from the plurality of segments and pieces cut from one or more trees, a plurality of groups of segments and pieces which have closely similar cross sectional conditions;




4. joining segments and pieces from each group end-to-end to form wooden structural units.




For purposes of this disclosure the term “minimal trimming” means cutting, from the surfaces of trees and segments, irregularities such as knots and small branch stubs which could interfere with the handling of a tree or segment. Also, the wording “cross sectional condition” refers to the shape, dimensions and grain structure of the cross section of a tree, segment or piece of a segment. Dimensional similarity means dimensions equal to 2.0 inches different.




A third modification of the basic method comprises the steps of:




1. cutting felled trees transversely to remove defective portions such as knots, split portions and warped portions;




2. cutting the remaining portions at cutting points into a plurality of segments which are, naturally, tapered, each segment having a length, a larger diameter end and a smaller diameter end, the length being in a range of random lengths such that the larger diameter end is in a range of 0.2 to 2.0 inches larger than the smaller diameter end;




3. selecting, from the plurality of segments cut from the remaining portions of one or more trees, a plurality of groups of segments which have smaller end diameters different in a range of 0.0 to 2.0 inches with 0.0 preferred;




4. processing the segments with processing varying from minimal trimming to cutting lengthwise into a plurality of pieces, each of the pieces having specific cross sectional conditions;




5. joining segments from each group end-to-end to form wooden structural units.




The subject basic method and its modifications may be practiced with or without kiln drying of the logs. If kiln drying is done, it is preferably done after the trees have been cut into segments. The energy required to kiln dry the segments is significantly less than that required for kiln drying the full trees, thus enhancing the economic viability of the method. The economic viability is further enhanced because (1) the method allows using virtually all of the length of each tree, rather than discarding portions removed to provide logs of specific lengths, and (2) trees purchased with random lengths are less expensive than trees of specified lengths and the subject method allows economical use of trees of unspecified lengths.




Further, the quality of the joining of the segments is high and predictable because of (1) the relative uniformity of the segments being joined and (2) the matching of the grain and growth ring patterns of the ends being joined.




The invention is described in more detail below with reference to the attached drawings.











BRIEF DESCRIPTION OF THE DRAWINGS





FIGS. 1 and 2

are schematic diagrams which illustrate how the subject method reduces waste.





FIG. 3

is a schematic illustration of a felled tree cut into segments having lengths according to the subject invention.





FIG. 3A

is a graphical illustration of the relationship of log diameter to wastage.





FIG. 3B

illustrates examples of segment processing according to the processing steps in the second and third modifications of the basic method.





FIG. 4

illustrates a reconstituted log with segments having two flat, parallel surfaces.





FIG. 5

illustrates a reconstituted log with segments having four orthogonal flat surfaces.





FIGS. 6

,


7


,


8


,


9


and


10


illustrate processing of reconstituted logs into wooden structural units as taught in U.S. Pat. No. 5,896,723.











DETAILED DESCRIPTION OF THE INVENTION




The subject invention is a method for more efficient use of smaller diameter trees, more efficient in terms of reduced wastage and improved structural quality of the lumber produced.

FIGS. 1 and 2

are schematic diagrams which illustrate how the subject method reduces wastage.

FIG. 1

illustrates a piece of lumber


10


sawn from a tree


11


with wastage indicated by cross hatching.

FIG. 2

illustrates segments of lumber


12


,


13


and


14


sawed from a tree


15


in accordance with the subject method, with wastage indicated by cross hatching and wastage saved indicated by double hatching. Although the lengths in these figures are foreshortened, the areas provide accurate comparative representations of wastage and wastage saved. The double hatched “saved wastage” in

FIG. 2

is approximately 80% of the wastage indicated in

FIG. 1

, indicating that in a tree in which the base diameter is about 3 times the tip diameter, the subject method reduces wastage as much as 80%, as an example. In a log having a base diameter twice the tip diameter, the waste saving approaches 70%.




The basic method of the subject invention comprises the steps of:




1. Cutting felled trees at cutting points into pluralities of segments which, naturally, are tapered, each segment having a length, a larger diameter end and a smaller diameter end, the length being in a range of random lengths such that the larger end diameter is in a range of 0.2 to 2.0 inches larger than the smaller end diameter, with 0.2 inch preferred;




2. selecting from the plurality of segments cut from one or more trees, a plurality of groups of segments which have smaller end diameters different in a range of 0.0 to 2.0 inches with 0.0 preferred;




3. joining segments from each group end-to-end to form reconstituted logs of optimum lengths for processing into wooden structural units;




In a first modification of the basic method, defective portions such as knots, split sections and warped sections are removed from the trees to be processed, using transverse cuts and the method comprises the steps of:




1. Cutting felled trees transversely to remove knots, defective portions such as split portions and warped portions;




2. cutting the remaining portions at cutting points into segments which are, naturally, tapered, each segment having a length, a larger diameter end and a smaller diameter end, the length being in a range of random lengths such that the larger diameter end is in a range of 0.2 to 2.0 inches larger than the smaller diameter end;




3. selecting, from the plurality of segments cut from the remaining portions of one or more trees, a plurality of groups of segments which have smaller end diameters different in a range of 0.0 to 2.0 inches with 0.0 preferred;




4. joining segments from each group end-to-end to form reconstituted logs of optimum lengths for processing into wooden structural units.




In a second modification of the basic method, the segments are processed according to diameter and condition, with processing varying from minimal trimming to cutting lengthwise into a plurality of pieces. The method comprises the steps of:




1. Cutting felled trees at cutting points into a plurality of segments which, naturally, are tapered, each segment having a length, a larger diameter end and a smaller diameter end, the length being in a range of random lengths such that the larger end diameter is in a range of 0.2 to 2.0 inches larger than the smaller end diameter, with 0.2 inch preferred;




2. processing the segments with processing varying from minimal trimming to cutting lengthwise into a plurality of pieces, each of the pieces having specific cross sectional conditions;




3. selecting, from the plurality of segments and pieces cut from one or more trees, a plurality of groups of segments and pieces which have closely similar cross sectional conditions;




4. joining segments from each group end-to-end to form wooden structural units.




In a third modification of the basic method the trees are processed to remove defects and the segments are processed according to size and conditions, the processing varying from minimal trimming to cutting lengthwise into a plurality of pieces. The method comprises the steps of:




1. Cutting felled trees transversely to remove knots, split portions and warped portions;




2. cutting the remaining portions at cutting points into segments which are, naturally, tapered, each segment having a length, a larger diameter end and a smaller diameter end, the length being in a range of random lengths such that the larger diameter end is in a range of 0.2 to 2.0 inches larger than the smaller diameter end;




3. selecting, from the plurality of segments cut from the remaining portion of one or more trees, a plurality of groups of segments which have smaller end diameters different in a range of 0.0 to 2.0 inches with 0.0 preferred;




4. processing the segments with processing varying from minimal trimming to cutting lengthwise into a plurality of pieces, each of the segments and pieces having specific cross sectional conditions;




5. joining segments and pieces from each group end-to-end to form wooden structural units.




The basic method and its modifications can be practiced with or without kiln drying. Kiln drying is preferably done before segments are joined because kiln drying short lengths requires much less energy than drying full-length logs and trees.





FIG. 3

is a schematic illustration of a portion of a felled tree


10


′ cut into segments having lengths according to the subject method. Segment


16


has a diameter of 1.5 inches at its smaller end and a length of one foot. The smaller end diameters and lengths of segments


17


,


18


and


19


respectively are 2½ inches and 1.5 feet, 3½ inches and 2 feet and 4½ inches and 3 feet (full length not shown).





FIG. 3A

graphically illustrates the importance of cutting the segments to lengths which minimize the difference between the diameters at the ends of the segments. In order to practice the procedures disclosed in U.S. Pat. No. 5,896,723 the logs must have flat parallel surfaces with widths at least 50% of the diameter of the log. This surface width is achieved when the diameter of the log at a cutting point is 1.14 times the distance D between the surfaces. If the diameter of a log were uniform and it were processed to have two sets of parallel surfaces with widths equal to half the diameter, the wastage produced by cutting to provide the flat surfaces is 13.6% of the log. If the diameter of the log is 1.2 times distance D, the wastage is 21% of the log. If the diameter is 1.4 times distance D, the processed log is square and wastage is 37%. If distance D equals the diameter there are no flat, parallel surfaces and no wastage. These facts are graphically presented in FIG.


3


A. It is most interesting that curve X is a straight line. The conclusion to be drawn from this data is that there is significantly more waste in segments with a significantly larger diameter at one end than at the other. Alternately having the end diameters of a segment close, such as no more than ½ inch different, significantly reduces waste.





FIG. 3B

illustrates examples of segment processing according to the processing steps in the second and third modifications of the basic method. Each view in

FIG. 3B

is a schematic diagram of a tree segment cross section with cuts lengthwise of the segments indicated by dashed lines. Reconstituted logs made with minimally processed segments may also be processed in many ways, the views of

FIG. 3B

being examples. In view (1) the log or segment


20


is sawed to yield a plurality of boards, board


21


being typical and two pieces


22


and


23


, termed wanes, which can be further processed into high quality useful wooden structural elements as shown in

FIGS. 6-10

discussed below. In view (2) the segment


24


yields a plurality of boards, board


25


being typical, and wanes


26


and


27


by saw cuts, saw cut


24


being typical. In view (3) the segment


27


yields two wanes


28


and


29


which can be processed as shown in

FIGS. 6-10

. In view (4) the segment


30


has been processed to have four flat, orthogonal surfaces as shown in

FIG. 5

, surface


31


being typical. In view (5) segment


32


has been cut into halves


33


and


34


which can be further processed as segments or as part of a reconstituted half log.





FIG. 4

illustrates a reconstituted log


35


with segments having been processed to have two flat, parallel surfaces. Segments


36


,


37


,


38


and


39


are joined, using finger joints


40


,


41


and


42


, with their flat, parallel surfaces aligned, surfaces


43


and


44


being typical.





FIG. 5

illustrates a reconstituted log


45


with segments having been processed to have four orthogonal, flat surfaces, surface


46


being typical. Segments


47


,


48


,


49


and


50


are joined, using finger joints


51


,


52


and


53


with their flat surfaces aligned, surfaces


54


,


55


and


56


being typical.





FIGS. 6

,


7


,


8


,


9


and


10


illustrate, for completeness of this disclosure, examples of processing of reconstituted logs into wooden structural units as taught in U.S. Pat. No. 5,896,723.

FIG. 6

illustrates a structural unit


57


made by s half lengthwise as shown by the dashed line in FIG.


5


. In

FIG. 6

halves


58


and


59


have been joined adhesively with their originally outside surfaces


60


and


61


against each other and faces


62


and


63


, previously inner faces, facing outward.





FIG. 7

illustrates two structural units


64


and


65


made by sawing structural unit


57


in half lengthwise at a saw-cut, indicated by the dashed line in FIG.


6


. The cut is perpendicular to faces


62


and


63


. Units


64


and


65


have 3 flat faces, faces


66


,


67


and


68


being typical, at right angles to each other with fourth faces


69


and


70


notched along their longitudinal centerlines, notch


71


being typical.





FIG. 8

is an end view of structural unit


57


cut into three structural units


72


,


73


and


74


by saw cuts


75


and


76


.

FIG. 9

is similar but shows unit


57


cut into four structural units


77


,


78


,


79


and


80


by saw cuts


81


,


82


and


83


.





FIG. 10

illustrates assembly of units similar to units


64


and


65


into longer and larger unit


84


. Units


85


,


86


,


87


and


88


are joined side-to-side. Hollow portions


89


and


90


lighten the weight of the unit and have no significant effect on its stiffness and strength because they are at the neutral axes of units


85


and


86


and units


87


and


88


respectively.




It is considered to be understandable from this description that the subject invention meets its objectives. It provides a method for more efficient use of smaller diameter trees by decreasing wastage and improving quality of the end products beyond the quality made possible by the teaching of U.S. Pat. No. 5,896,723. The wastage is reduced by reconstituting logs. The quality is improved by removal of defective portions from the logs which are reconstituted and by making the reconstituted logs by end-to-end joining of segments having highly similar grain and growth ring configurations.




It is also considered to be understood that while certain methods are disclosed herein, other methods and modifications of those described are possible within the scope of the invention which is limited only by the attached claims.



Claims
  • 1. A method for more efficient use of smaller diameter trees, each of said trees being tapered and having a length and diameters in a range of diameters, said diameters varying along said length, said method comprising the steps of:a. cutting said felled trees into pluralities of segments which are tapered, each segment having a length, a larger diameter end having a larger diameter and a smaller diameter end having a smaller diameter, said length being in a range of lengths and being such that said larger diameter is in a range of 0.2 to 2.0 inches larger than said smaller diameter; b. selecting, from said pluralities of segments, a plurality of groups of segments which have said smaller end diameters different in a range of 0.0 to 2.0 inches with 0.0 preferred; c. joining said segments from each of said groups end-to-end to form reconstituted logs.
  • 2. A method for more efficient use of smaller diameter trees, each of said trees having a length and diameters in a range of diameters, said diameters varying along said length, said trees having defective portions, said method comprising the steps of:a. cutting said trees transversely to remove said defective portions and leaving remaining portions; b. cutting said remaining portions into pluralities of segments which are tapered, each segment having a length, a larger diameter end having a larger diameter and a smaller diameter end having a smaller diameter, said length being in a range of lengths and being such that said larger diameter is in a range of 0.2 to 2.0 inches larger than said smaller diameter; c. selecting from said pluralities of segments a plurality of groups of segments which have said smaller end diameters different in a range of 0.0 to 2.0 inches with 0.0 preferred; d. joining said segments from each of said groups end-to-end to form reconstituted logs.
  • 3. A method for more efficient use of smaller diameter trees, each of said trees having a length and diameter in a range of diameters, said diameters varying along said length, said method comprising the steps of:a. cutting said felled trees into pluralities of segments which are tapered, each segment having a length, a larger diameter end having a larger diameter and a smaller diameter end having a smaller diameter, said length being in a range of lengths and being such that said larger diameter is in a range of 0.2 to 2.0 inches larger than said smaller diameter; b. selecting from said pluralities of segments a plurality of groups of segments which have said smaller end diameters different in a range of 0.0 to 2.0 with 0.0 preferred; c. processing each of said segments in said groups of segments with processing varying from minimal trimming to cutting lengthwise into a plurality of pieces, each of said pieces having specific cross sectional conditions; d. joining said segments and said pieces having said similar cross sectional conditions from each of said groups end-to-end to form wooden structural units.
  • 4. A method for more efficient use of smaller diameter trees, each of said trees being tapered and having a length and diameters in a range of diameters, said diameters varying along said length, said trees having defective portions, said method comprising the steps of:a. cutting said trees transversely to remove said defective portions, leaving remaining portions; b. cutting said remaining portions into pluralities of segments which are tapered, each segment having a length, a larger diameter end having a larger diameter and a smaller diameter end having a smaller diameter, said length being in a range of lengths and being such that said larger diameter is in a range of 0.2 to 2.0 inches larger than said smaller diameter; c. selecting, from said plurality of segments cut from said remaining portions of one or more trees, a plurality of groups of said segments which have said smaller end diameters different in a range of 0.0 to 2.0 inches with 0.0 preferred; d. processing each of said segments in said plurality of groups of said segments with processing varying from minimal trimming to cutting lengthwise into a plurality of pieces, each of said pieces having specific cross sectional conditions; e. joining said segments and said pieces having similar cross sectional conditions from each of said groups end-to-end to form wooden structural units.
Parent Case Info

This application is a Continuation-In-Part application based on application Ser. No. 09/396,712, filed Sep. 13, 1999, to be abandoned when this application is duly filed.

US Referenced Citations (3)
Number Name Date Kind
4624295 Howland Nov 1986
5896723 Jing Apr 1999
6025053 Grenier Feb 2000
Continuation in Parts (1)
Number Date Country
Parent 09/396712 Sep 1999 US
Child 09/702273 US